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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 1 - Module 1 : Lecture 1 - Solution models |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 2 - Module 1 : Lecture 2 - Summary of solution models |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 3 - Module 1 : Lecture 3 - G vs X diagrams |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 4 - Module 1 : Lecture 4 - Phase diagrams |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 5 - Module 1 : Lecture 5 - Bond breaking model |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 6 - Module 2 : Lecture 6 - Chemical potential |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 7 - Module 1 : Tutorial 1 |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 8 - Module 1 : Tutorial 2 |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 9 - Module 1 : Tutorial 3 |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 10 - Module 1 : Tutorial 4 |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 11 - Module 1 : Tutorial 5 |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 12 - Module 2 : Tutorial 6 |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 13 - Module 2 : Lecture 7 - Diffusion and chemical potential |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 14 - Module 2 : Lecture 8 - Fick's law |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 15 - Module 2 : Lecture 9 - Failure of classical diffusion equation |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 16 - Module 2 : Lecture 10 - Some references |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 17 - Module 3 : Lecture 11 - Spinodal decomposition - some history |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 18 - Module 3 : Lecture 12 - Spinodal decomposition |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 19 - Module 3 : Lecture 13 - Stability |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 20 - Module 3 : Lecture 14 - Thermodynamic property : composition dependence |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 21 - Module 3 : Lecture 15 - Regions of stability |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 22 - Module 3 : Lecture 16 - Understanding spinodal region |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 23 - Module 2 : Tutorial 7 |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 24 - Module 4 : Lecture 17 - Solution to classical diffusion equation |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 25 - Module 4 : Lecture 18 - Diffusion and mobility - I |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 26 - Module 4 : Lecture 19 - Diffusion and mobility - II |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 27 - Module 4 : Lecture 20 - Failure of classical diffusion equation |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 28 - Module 4 : Lecture 21 - Non-classical diffusion equation |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 29 - Module 5 : Lecture 22 - GNU Octave : Introduction |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 30 - Module 5 : Lecture 23 - GNU Octave : interactive mode |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 31 - Module 5 : Lecture 24 - GNU Octave : script mode |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 32 - Module 6 : Lecture 25 - Ideal solution using octave |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 33 - Module 6 : Lecture 26 - Regular solution using octave |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 34 - Module 6 : Lecture 27 - Constructing phase diagram |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 35 - Module 6 : Lecture 28 - Plotting spinodal |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 36 - Module 7 : Lecture 29 - Non-dimensionalisation of diffusion equation |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 37 - Module 7 : Lecture 30 - Diffusion and Fourier law of heat conduction |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 38 - Module 8 : Lecture 31 - Diffusion equation : Analytical solution - I |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 39 - Module 8 : Lecture 32 - Diffusion equation : Analytical solution - II |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 40 - Module 8 : Lecture 33 - Diffusion equation : Error function solution - I |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 41 - Module 8 : Lecture 34 - Diffusion equation: Error function solution - II |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 42 - Module 9 : Lecture 35 - Diffusion equation : finite difference method |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 43 - Module 9 : Lecture 36 - Diffusion equation : zero flux BC and explicit method |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 44 - Module 9 : Lecture 37 - Diffusion equation : zero flux BC and implicit method |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 45 - Module 9 : Lecture 38 - Diffusion equation : imposed concentration BC and explicit/implicit methods |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 46 - Module 10 : Lecture 39 - Periodic boundary conditions (PBC) |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 47 - Module 10 : Lecture 40 - Expicit method with PBC |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 48 - Module 10 : Lecture 41 - Spectral Techniques - I |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 49 - Module 10 : Lecture 42 - Spectral Techniques - II |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 50 - Module 10 : Lecture 43 - Implicit spectral method |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 51 - Module 11 : Lecture 44 - Scalars, vectors and tensors |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 52 - Module 11 : Lecture 45 - Coordinate transformation |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 53 - Module 11 : Lecture 46 - Transformation laws |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 54 - Module 11 : Lecture 47 - II rank tensors and Neumann principle |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 55 - Module 12 : Lecture 48 - Group theory |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 56 - Module 12 : Lecture 49 - Crystal: symmetry elements - I |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 57 - Module 12 : Lecture 50 - Crystal: symmetry elements - II |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 58 - Module 12 : Lecture 51 - Understanding Neumann's principle |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 59 - Module 12 : Lecture 52 - Representation quadric |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 60 - Module 13 : Lecture 53 - Variational calculus |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 61 - Module 13 : Lecture 54 - Optimization of functionals - I |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 62 - Module 13 : Lecture 55 - Optimization of functionals - II |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 63 - Module 13 : Lecture 56 - Variational derivative |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 64 - Module 13 : Lecture 57 - Free energy functional |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 65 - Module 14 : Lecture 58 - Derivation of Cahn-Hilliard (CH) equation - I |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 66 - Module 14 : Lecture 59 - Derivation of Cahn-Hilliard (CH) equation - II |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 67 - Module 14 : Lecture 60 - Free energy versus concentration curves |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 68 - Module 14 : Lecture 61 - Diffusion equation versus CH |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 69 - Module 15 : Lecture 62 - Numerical solution of CH: finite difference |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 70 - Module 15 : Lecture 63 - Numerical solution of CH: spectral method |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 71 - Module 16 : Lecture 64 - Interfacial energy in CH |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 72 - Module 16 : Lecture 65 - CH: analytical solution |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 73 - Module 16 : Lecture 66 - Interfacial energy in CH: analytical calculation |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 74 - Module 16 : Lecture 67 - Interfacial energy: numerical versus analytical values |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 75 - Module 17 : Lecture 68 - Order-disorder transition and Allen-Cahn equation |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 76 - Module 17 : Lecture 69 - AC: numerical solution |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 77 - Module 18 : Lecture 70 - Spinodal decomposition in 2D |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 78 - Module 18 : Lecture 71 - Order-disorder transformation |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 79 - Module 18 : Lecture 72 - Gibbs Thomson effect |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 80 - Module 18 : Lecture 73 - Grain growth |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 81 - Module 19 : Lecture 74 - Precipitate growth - I |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 82 - Module 19 : Lecture 75 - Precipitate growth - II |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 83 - Module 20 : Lecture 76 - Grain growth: Fan-Chen model - I |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 84 - Module 20 : Lecture 77 - Grain growth: Fan-Chen model - II |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 85 - Module 21 : Lecture 78 - Grain boundary grooving - I |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 86 - Module 21 : Lecture 79 - Grain boundary grooving - II |
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NOC:Phase Field Modelling: The Materials Science, Mathematics and Computational Aspects |
Lecture 87 - Module 22 : Lecture 80 - Overview of phase field modelling |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 1 - Descriptive Statistics - I |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 2 - Descriptive Statistics - II |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 3 - Probability and Distribution |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 4 - Random variable and Expectation - I |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 5 - Random variable and Expectation - II |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 6 - Random variable and Expectation - III |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 7 - Random variable and Expectation - IV |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 8 - Module: Introduction to R |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 9 - R:Demos and getting help |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 10 - R as calculator and plotter: Diffusivity, scaled temperatures |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 11 - R as calculator and plotter: Diffraction, configurational entropy |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 12 - Data in tabular form: Properties of elements |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 13 - Tabular data in R: alternate methodology |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 14 - Dataframe in R: Properties of elements |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 15 - R libraries for plotting |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 16 - Importing and plotting data |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 17 - Property charts: Importing and plotting data |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 18 - Introduction to R: Summary of the module |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 19 - Descriptive statistics |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 20 - Presenting experimental results: Data on conductivity of ETP copper |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 21 - Property based reports, errors, significant digits |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 22 - Dealing with distributions: Grain size data |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 23 - Grain size data: Property and rank based reports |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 24 - Case study: Grain size in a two phase steel |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 25 - Grain size in a two phase steel: Descriptive statistics |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 26 - Presenting experimental results: data with error bars |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 27 - Errors and their propagation |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 28 - Fitting experimental data to distributions |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 29 - Combining uncertainties |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 30 - Summary:Descriptive statistics |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 31 - Special Random Variables - I |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 32 - Special Random Variables - II |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 33 - Special Random Variables - III |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 34 - Special Random Variables - IV |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 35 - Special Random Variables - V |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 36 - Probabilty Plots |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 37 - Probability distributions |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 38 - Properties of probability distributions |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 39 - Bernoulli trials and binomial distributions |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 40 - Atom probe technique and negative binomial distribution |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 41 - Atom probe and hypergeometric distribution |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 42 - Atom probe: analysis of error |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 43 - Nucleation and Poisson distribution |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 44 - Normal distribution |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 45 - Normal distribution and error function |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 46 - Probability scale |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 47 - Sampling Distribution - I |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 48 - Sampling Distribution - II |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 49 - Sampling Distribution - III |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 50 - Parameter Estimation - I |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 51 - Parameter Estimator - II |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 52 - Parameter Estimator - III |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 53 - Parameter Estimator - IV |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 54 - Bayesian Estimation |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 55 - Log normal distribution |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 56 - Lorentz/Cauchy distribution |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 57 - Lifetime and exponential distributions |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 58 - Distributions from statistical mechanics |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 59 - Uniform distribution and summary of probability distributions |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 60 - Data processing: Introduction |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 61 - Distribution function of a data series |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 62 - Estimating mean and mean-square-deviation of data |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 63 - Data with unequal weights |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 64 - Robust estimates |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 65 - From data to underlying distribution |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 66 - Bootstrap method |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 67 - Summary:Data processing |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 68 - Hypothesis Testing - I |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 69 - Hypothesis Testing - II |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 70 - Hypothesis Testing - III |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 71 - Hypothesis Testing - IV |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 72 - Hypothesis Testing - V |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 73 - Hypothesis Testing - VI |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 74 - Graphical handling of data |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 75 - Fitting and graphical handling of data: Introduction |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 76 - Data transformable to linear |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 77 - Data of known functional form |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 78 - Calibration,Fitting, Hypotheses testing |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 79 - Analysis of variance |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 80 - Summary:Fittng and graphical handling of data |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 81 - Regression Analysis - I |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 82 - Regression Analysis - II |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 83 - Regression Analysis - III |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 84 - Regression Analysis - IV |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 85 - Analysis of Variance - I |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 86 - Analysis of Variance - II |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 87 - Design of Experiment - I |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 88 - Design of Experiment - II |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 89 - Design of Experiment - III |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 90 - Design of Experiment - IV |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 91 - Summary of the course |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 92 - Case studies: Introduction |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 93 - Case study 1: Data smoothing - I |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 94 - Case study 1: Data smoothing - II |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 95 - Case study 2: Error analysis |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 96 - Case study 3: Calibration |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 97 - Case study 4: Design of experiment |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 98 - Case study 5: Hypothesis testing |
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NOC:Dealing with Materials Data: Collection, Analysis and Interpretation |
Lecture 99 - Course summary |
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NOC:Aqueous Corrosion and its Control |
Lecture 1 - Introduction to the course and corrosion implications |
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NOC:Aqueous Corrosion and its Control |
Lecture 2 - Can we predict if a metal corrodes? - Part I |
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NOC:Aqueous Corrosion and its Control |
Lecture 3 - Can we predict if a metal corrodes? - Part II |
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NOC:Aqueous Corrosion and its Control |
Lecture 4 - Can we calculate the rate of corrosion: Electrochemical kinetics - Tafel relation? |
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NOC:Aqueous Corrosion and its Control |
Lecture 5 - Can we calculate the rate of corrosion: Electrochemical kinetics - diffusion and mixed potential theory? |
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NOC:Aqueous Corrosion and its Control |
Lecture 6 - Can we calculate the corrosion rate of metals: Mixed potential theory and passivity? |
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NOC:Aqueous Corrosion and its Control |
Lecture 7 - Passivity (Continued...) |
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NOC:Aqueous Corrosion and its Control |
Lecture 8 - DC polarisation experiments and their relation to mixed potential theory/Evans diagram |
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NOC:Aqueous Corrosion and its Control |
Lecture 9 - Pourbaix diagram and electrochemical corrosion |
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NOC:Aqueous Corrosion and its Control |
Lecture 10 - Forms of corrosion: Uniform v/s localised corrosion |
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NOC:Aqueous Corrosion and its Control |
Lecture 11 - Forms of corrosion: Factors affecting uniform corrosion |
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NOC:Aqueous Corrosion and its Control |
Lecture 12 - Forms of corrosion: Preventive measures for uniform corrosion - Part I |
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NOC:Aqueous Corrosion and its Control |
Lecture 13 - Forms of corrosion: Preventive measures for uniform corrosion - Part II |
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NOC:Aqueous Corrosion and its Control |
Lecture 14 - Forms of corrosion: Galvanic or dissimilar metal corrosion - Part I |
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NOC:Aqueous Corrosion and its Control |
Lecture 15 - Forms of corrosion: Galvanic or dissimilar metal corrosion - Part II |
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NOC:Aqueous Corrosion and its Control |
Lecture 16 - Forms of corrosion: Galvanic or dissimilar metal corrosion - Part III |
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NOC:Aqueous Corrosion and its Control |
Lecture 17 - Forms of corrosion: Crevice corrosion - Part I |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 18 - Forms of corrosion: Crevice corrosion - Part II |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 19 - Forms of corrosion: Pitting corrosion - Part I |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 20 - Forms of corrosion: Pitting corrosion - Part II |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 21 - Forms of corrosion: Intergranular corrosion - Part I |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 22 - Forms of corrosion: Intergranular corrosion - Part II |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 23 - Forms of corrosion: Intergranular corrosion - Part III |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 24 - Forms of corrosion: Intergranular corrosion - Part IV |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 25 - Forms of corrosion: Selective leaching or dealloying |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 26 - Forms of corrosion: Flow assisted corrosion and erosion corrosion - Part I |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 27 - Forms of corrosion: Erosion corrosion - Part II |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 28 - Forms of corrosion: Fretting corrosion |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 29 - Forms of corrosion: Stress corrosion cracking - Part I |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 30 - Forms of corrosion: Stress corrosion cracking - Part II |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 31 - Forms of corrosion: Stress corrosion cracking - Part III |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 32 - Forms of corrosion: Hydrogen damage |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 33 - Forms of corrosion: Microbial corrosion |
Link |
NOC:Aqueous Corrosion and its Control |
Lecture 34 - Effective corrosion management |
Link |
NOC:Cathodic Protection Engineering |
Lecture 1 - Introduction to the course and understanding corrosion |
Link |
NOC:Cathodic Protection Engineering |
Lecture 2 - External corrosion of pipelines |
Link |
NOC:Cathodic Protection Engineering |
Lecture 3 - Electrochemical principles |
Link |
NOC:Cathodic Protection Engineering |
Lecture 4 - Criteria |
Link |
NOC:Cathodic Protection Engineering |
Lecture 5 - Assessment of pipeline condition through surveys - Part I |
Link |
NOC:Cathodic Protection Engineering |
Lecture 6 - Assessment of pipeline condition through surveys - Part II |
Link |
NOC:Cathodic Protection Engineering |
Lecture 7 - Anode ground bed for cathodic protection |
Link |
NOC:Cathodic Protection Engineering |
Lecture 8 - Perspectives in storage tanks and off-shore structures |
Link |
NOC:Cathodic Protection Engineering |
Lecture 9 - Anodes |
Link |
NOC:Cathodic Protection Engineering |
Lecture 10 - Worked out examples |
Link |
NOC:Cathodic Protection Engineering |
Lecture 11 - Stray current corrosion and its control |
Link |
NOC:Cathodic Protection Engineering |
Lecture 12 - Coatings and rectifier selection |
Link |
NOC:Cathodic Protection Engineering |
Lecture 13 - Internal corrosion of oil and steel gas pipelines |
Link |
NOC:Cathodic Protection Engineering |
Lecture 14 - Anodic protection engineering |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 1 - Intoduction |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 2 - Crystal geometry |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 3 - Unit cell |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 4 - Classification of lattices |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 5 - Gaps in Bravais lattice list |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 6 - Symmetry - I |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 7 - Symmetry - II |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 8 - Classification of lattices on the basis of symmetry |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 9 - A symmetry based approach to Bravais lattices |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 10 - Miller indices of directions |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 11 - Miller indices for planes |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 12 - Miller indices for plane and its normal in Cubic Crystal |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 13 - Weiss Zone law and its applications |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 14 - Inter-planar spacing |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 15 - Bragg’s Law |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 16 - Close-packing of hard spheres |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 17 - Hexagonal Close-Packed (HCP) structure |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 18 - Lattice and motif of HCP crystals |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 19 - c/a ratio of an ideal HCP crystal |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 20 - ABCABC stacking of close-packed spheres |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 21 - Voids in close-packed structures |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 22 - Solid solutions - I |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 23 - Solid solutions - II |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 24 - Hume-Rothery rules |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 25 - Ordered and disordered solid solutions |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 26 - Graphene |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 27 - Structure of graphite |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 28 - Structure of diamond |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 29 - Carbon nanotubes (CNT) |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 30 - Buckminsterfullerene (C60) |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 31 - Ionic solids |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 32 - NaCl |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 33 - CsCl |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 34 - ZnS |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 35 - BCC vs CsCl |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 36 - Amorphous Solids |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 37 - Polymers |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 38 - Vinyl Polymers |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 39 - Thermoplasts and Thermosets |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 40 - Tacticity |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 41 - Copolymers |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 42 - Crystallinity in Polymers |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 43 - Defects in Crystals |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 44 - Vacancies |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 45 - Edge dislocation: Half plane |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 46 - Edge dislocation: Slip |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 47 - Characteristic vectors of a dislocation |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 48 - Edge, screw and mixed dislocations |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 49 - Screw dislocations |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 50 - Burgers circuit |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 51 - Elastic energy of a dislocation line |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 52 - Burgers vector: Shortest lattice translation |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 53 - Burgers vector of a dislocation is constant along the line |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 54 - Geometrical properties of a dislocations: Dislocation cannot end abruptly in a crystal: Free surface |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 55 - Dislocation cannot end abruptly in a crystal: Grain boundaries |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 56 - Dislocation cannot end abruptly in a crystal: Dislocation nodes |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 57 - Dislocation cannot end abruptly in a crystal: Dislocation loop |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 58 - Dislocation motion |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 59 - 2D defects: Surfaces or interfaces |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 60 - Free surface or external surface of the crystal |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 61 - Stacking faults |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 62 - Twin boundary |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 63 - Grain boundary |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 64 - Small angle symmetric tilt boundary |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 65 - Ball bearing model |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 66 - Phase diagrams: Introduction |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 67 - Phases and components |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 68 - Uses of phase diagrams |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 69 - Phases present in the system |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 70 - Composition of phases present in the system |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 71 - Proportion of phases present in the system |
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NOC:Introduction to Materials Science and Engineering |
Lecture 72 - Microstructure evolution during solidification in isomorphous systems |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 73 - Eutectic system |
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NOC:Introduction to Materials Science and Engineering |
Lecture 74 - Eutectic reaction |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 75 - Eutectic, hypoeutectic and hypereutectic alloys |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 76 - Gibbs’ phase rule |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 77 - Fe-C phase diagram |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 78 - Eutectoid, hypoeutectoid and hypereutectoid steels |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 79 - Microstructure of a hypoeutectoid steel |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 80 - Microstructure of a hypereutectoid steel |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 81 - Diffusion: Introduction |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 82 - Fick’s first law |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 83 - Fick’s second law |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 84 - Error function solution of Fick’s second law |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 85 - Atomic mechanisms of diffusion |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 86 - Substitutional diffusion revisited |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 87 - Diffusion paths |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 88 - Steady and unsteady state diffusion |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 89 - Phase Transformation |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 90 - Nucleation |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 91 - Nucleation and capillary rise |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 92 - Nucleation, growth and overall transformation |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 93 - Time-temperature-transformation (TTT) diagram |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 94 - Homogeneus and heterogeneous nucleation |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 95 - Heat treatment of steels |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 96 - TTT diagram of Eutectoid Steels |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 97 - Quenching and martensite |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 98 - Austempering and bainite |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 99 - Tempering |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 100 - Residual stresses and Quench cracks |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 101 - Marquenching and martempering |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 102 - TTT diagram of hypoeutectoid and hypereutectoid steels |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 103 - TTT diagram of alloy steel |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 104 - hardenability of steels |
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NOC:Introduction to Materials Science and Engineering |
Lecture 105 - Glass Ceramics |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 106 - Tensile test |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 107 - Plastic deformation and crystal structure |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 108 - Shape change |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 109 - Slip |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 110 - Resolved shear stress |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 111 - CRSS |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 112 - Schmid's law |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 113 - CRSS:Theory vs experiment |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 114 - Why is experimental CRSS less than theoretical CRSS |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 115 - Strengthening mechaniksms |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 116 - Dislocation density |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 117 - Frank-Read source |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 118 - strain hardening |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 119 - Dislocation interaction leading to strain hardening - I |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 120 - Dislocation interaction leading to strain hardening - II |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 121 - Solid solution hardening |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 122 - Grain size hardening |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 123 - Age hardening - I |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 124 - Age hardening - II |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 125 - Metastable precipitates |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 126 - Annealing of cold-worked metals |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 127 - Recovery |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 128 - Recrystallization |
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NOC:Introduction to Materials Science and Engineering |
Lecture 129 - Grain Growth |
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NOC:Introduction to Materials Science and Engineering |
Lecture 130 - True stress and true strain |
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NOC:Introduction to Materials Science and Engineering |
Lecture 131 - Creep |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 132 - Effect of stress and temperature on creep |
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NOC:Introduction to Materials Science and Engineering |
Lecture 133 - Creep Mechanisms |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 134 - Composites |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 135 - Isostrain modulus |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 136 - Isostress modulus |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 137 - Fracture |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 138 - Ductile and Brittle Fracture |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 139 - Role of crack size |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 140 - Griffith's Criterion |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 141 - Stress Concentration |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 142 - Ductile to brittle transition |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 143 - Enhancing fracture resistance |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 144 - Toughening of glass: Tempering |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 145 - Toughening of glass: Ion-Exchange |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 146 - Fatigue |
Link |
NOC:Introduction to Materials Science and Engineering |
Lecture 147 - Sub-Critical crack growth |
Link |
NOC:Crystals, Symmetry and Tensors |
Lecture 1 (1a) |
Link |
NOC:Crystals, Symmetry and Tensors |
Lecture 2 (1b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 3 (1c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 4 (1d) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 5 (1e) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 6 (2a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 7 (2b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 8 (2c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 9 (2d) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 10 (3a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 11 (3b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 12 (3c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 13 (4a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 14 (4b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 15 (5a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 16 (5b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 17 (5c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 18 (6a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 19 (6b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 20 (6c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 21 (6d) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 22 (7a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 23 (7b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 24 (7c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 25 (8a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 26 (8b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 27 (9a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 28 (9b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 29 (9c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 30 (9d) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 31 (10a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 32 (10b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 33 (11a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 34 (11b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 35 (11c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 36 (11d) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 37 (12a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 38 (12b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 39 (13a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 40 (13b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 41 (14a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 42 (14b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 43 (15a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 44 (15b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 45 (15c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 46 (16a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 47 (16b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 48 (17) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 49 (18a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 50 (18b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 51 (18c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 52 (18d) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 53 (19a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 54 (19b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 55 (19c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 56 (19d) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 57 (20a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 58 (20b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 59 (20c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 60 (20d) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 61 (20e) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 62 (21a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 63 (21b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 64 (21c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 65 (21d) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 66 (21e) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 67 (22a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 68 (22b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 69 (22c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 70 (22d) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 71 (23a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 72 (23b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 73 (23c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 74 (24a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 75 (24b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 76 (24c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 77 (25a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 78 (25b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 79 (25c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 80 (25d) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 81 (26a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 82 (26b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 83 (27a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 84 (27b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 85 (27c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 86 (27d) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 87 (27e) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 88 (27f) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 89 (28a) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 90 (28b) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 91 (28c) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 92 (28d) |
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NOC:Crystals, Symmetry and Tensors |
Lecture 93 (28e) |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 1 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 2 |
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NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 3 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 4 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 5 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 6 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 7 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 8 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 9 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 10 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 11 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 12 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 13 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 14 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 15 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 16 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 17 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 18 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 19 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 20 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 21 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 22 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 23 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 24 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 25 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 26 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 27 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 28 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 29 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 30 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 31 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 32 |
Link |
NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 33 |
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NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 34 |
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NOC:Corrosion-Environmental Degradation-Surface Engineering |
Lecture 35 |
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NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 1 - Structure and properties of materials - Part I |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 2 - Structure and properties of materials - Part II |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 3 - Elasticity Isotropic elasticity of materials; Anisotropic elasticity - Part I |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 4 - Elasticity Isotropic elasticity of materials; Anisotropic elasticity - Part II |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 5 - Continuum Plasticity - I (Part A) |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 6 - Continuum Plasticity - I (Part B) |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 7 - Continuum Plasticity - II (Part A) |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 8 - Continuum Plasticity - II (Part B) |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 9 - Crystal Plasticity - I (Part A) |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 10 - Crystal Plasticity - I (Part B) |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 11 - Crystal Plasticity - II (Part A) |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 12 - Crystal Plasticity - II (Part B) |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 13 - Crystal Plasticity - II (Part C) |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 14 - Hardening Mechanisms in Metals - Part I |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 15 - Hardening Mechanisms in Metals - Part II |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 16 - Hardening Mechanisms in Metals - Part III |
Link |
NOC:Introduction to Crystal Elasticity and Crystal Plasticity |
Lecture 17 - Multi-Scale Approach to Materials Modelling |
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Advanced Characterization Techniques |
Lecture 1 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 2 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 3 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 4 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 5 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 6 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 7 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 8 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 9 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 10 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 11 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 12 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 13 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 14 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 15 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 16 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 17 - Advanced Characterization Techniques |
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Advanced Characterization Techniques |
Lecture 18 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 19 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 20 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 21 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 22 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 23 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 24 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 25 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 26 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 27 - Advanced Characterization Techniques |
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Advanced Characterization Techniques |
Lecture 28 - Advanced Characterization Techniques |
Link |
Advanced Characterization Techniques |
Lecture 29 - Advanced Characterization Techniques |
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Advanced Characterization Techniques |
Lecture 30 - Advanced Characterization Techniques |
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Advanced Characterization Techniques |
Lecture 31 - Advanced Characterization Techniques |
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Advanced Characterization Techniques |
Lecture 32 - Advanced Characterization Techniques |
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Advanced Characterization Techniques |
Lecture 33 - Advanced Characterization Techniques |
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Electroceramics |
Lecture 1 |
Link |
Electroceramics |
Lecture 2 |
Link |
Electroceramics |
Lecture 3 |
Link |
Electroceramics |
Lecture 4 |
Link |
Electroceramics |
Lecture 5 |
Link |
Electroceramics |
Lecture 6 |
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Electroceramics |
Lecture 7 |
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Electroceramics |
Lecture 8 |
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Electroceramics |
Lecture 9 |
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Electroceramics |
Lecture 10 |
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Electroceramics |
Lecture 11 |
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Electroceramics |
Lecture 12 |
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Electroceramics |
Lecture 13 |
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Electroceramics |
Lecture 14 |
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Electroceramics |
Lecture 15 |
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Electroceramics |
Lecture 16 |
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Electroceramics |
Lecture 17 |
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Electroceramics |
Lecture 18 |
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Electroceramics |
Lecture 19 |
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Electroceramics |
Lecture 20 |
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Electroceramics |
Lecture 21 |
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Electroceramics |
Lecture 22 |
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Electroceramics |
Lecture 23 |
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Electroceramics |
Lecture 24 |
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Electroceramics |
Lecture 25 |
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Electroceramics |
Lecture 26 |
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Electroceramics |
Lecture 27 |
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Electroceramics |
Lecture 28 |
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Electroceramics |
Lecture 29 |
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Electroceramics |
Lecture 30 |
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Electroceramics |
Lecture 31 |
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Electroceramics |
Lecture 32 |
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Electroceramics |
Lecture 33 |
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Electroceramics |
Lecture 34 |
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Electroceramics |
Lecture 35 |
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Electroceramics |
Lecture 36 |
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Electroceramics |
Lecture 37 |
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Electroceramics |
Lecture 38 |
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Electroceramics |
Lecture 39 |
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Electroceramics |
Lecture 40 |
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Electroceramics |
Lecture 41 |
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Fuels Refractory and Furnaces |
Lecture 1 - Energy Resources and Environment |
Link |
Fuels Refractory and Furnaces |
Lecture 2 - Characterization of Fuels: Concepts |
Link |
Fuels Refractory and Furnaces |
Lecture 3 - Characterization of Fuels: Concepts |
Link |
Fuels Refractory and Furnaces |
Lecture 4 - Production of Secondary Fuels : Carbonization |
Link |
Fuels Refractory and Furnaces |
Lecture 5 - Materials Balance in Coke-making |
Link |
Fuels Refractory and Furnaces |
Lecture 6 - Heat Balance and Clean Development Mechanism |
Link |
Fuels Refractory and Furnaces |
Lecture 7 - Production of Secondary Fuels: Gasification |
Link |
Fuels Refractory and Furnaces |
Lecture 8 - Materials and Heat Balance in Gasification |
Link |
Fuels Refractory and Furnaces |
Lecture 9 - Principles of combustion: Concepts and illustrations |
Link |
Fuels Refractory and Furnaces |
Lecture 10 - Principles of combustion: Concepts and illustrations |
Link |
Fuels Refractory and Furnaces |
Lecture 11 - Materials balance in combustion |
Link |
Fuels Refractory and Furnaces |
Lecture 12 - Principles of Combustion: Flame Temperature |
Link |
Fuels Refractory and Furnaces |
Lecture 13 - Flame Temperature Calculations |
Link |
Fuels Refractory and Furnaces |
Lecture 14 - Refractory in Furnaces |
Link |
Fuels Refractory and Furnaces |
Lecture 15 - Refractory in Furnaces |
Link |
Fuels Refractory and Furnaces |
Lecture 16 - Furnace: Types and Classification |
Link |
Fuels Refractory and Furnaces |
Lecture 17 - Heat Utilization in furnaces, energy flow diagrams |
Link |
Fuels Refractory and Furnaces |
Lecture 18 - Heat Utilization in furnaces, energy flow diagrams |
Link |
Fuels Refractory and Furnaces |
Lecture 19 - Heat Utilization in Furnaces: Heat Recovery Concepts and Illustrations |
Link |
Fuels Refractory and Furnaces |
Lecture 20 - Heat Utilization in Furnaces: Heat Recovery Concepts and Illustrations |
Link |
Fuels Refractory and Furnaces |
Lecture 21 - Transport Phenomena in Furnaces: Fluid Flow |
Link |
Fuels Refractory and Furnaces |
Lecture 22 - Macroscopic Energy Balance: Concepts |
Link |
Fuels Refractory and Furnaces |
Lecture 23 - Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames |
Link |
Fuels Refractory and Furnaces |
Lecture 24 - Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames |
Link |
Fuels Refractory and Furnaces |
Lecture 25 - Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames |
Link |
Fuels Refractory and Furnaces |
Lecture 26 - Macroscopic Energy Balance: Applications to Design Head Meters, Stack and Blowers, Types of Flames |
Link |
Fuels Refractory and Furnaces |
Lecture 27 - Principles of Burner Design |
Link |
Fuels Refractory and Furnaces |
Lecture 28 - Transport Phenomena in Furnaces: Heat Transfer and Refractory Design |
Link |
Fuels Refractory and Furnaces |
Lecture 29 - Transport Phenomena in Furnaces: Heat Transfer and Refractory Design |
Link |
Fuels Refractory and Furnaces |
Lecture 30 - Transport Phenomena in Furnaces: Convection and Radiation Heat Transfer, Role of Refractory |
Link |
Fuels Refractory and Furnaces |
Lecture 31 - Transport Phenomena in Furnaces: Convection and Radiation Heat Transfer, Role of Refractory |
Link |
Fuels Refractory and Furnaces |
Lecture 32 - Steady Heat flows in Furnace and Heat Exchanger |
Link |
Fuels Refractory and Furnaces |
Lecture 33 - Exercises on Heat Flow in Furnaces and Heat Exchangers |
Link |
Fuels Refractory and Furnaces |
Lecture 34 - Exercises on Heat Flow in Furnaces and Heat Exchangers |
Link |
Fuels Refractory and Furnaces |
Lecture 35 - Miscellaneous Topics: Atmosphere in Furnaces |
Link |
Fuels Refractory and Furnaces |
Lecture 36 - Miscellaneous Topics: Pyrometry |
Link |
Fuels Refractory and Furnaces |
Lecture 37 - Miscellaneous Topics: Pyrometry |
Link |
Fuels Refractory and Furnaces |
Lecture 38 - Miscellaneous topics: Electric Resistance Heating |
Link |
Fuels Refractory and Furnaces |
Lecture 39 - Furnace efficiency, Fuel Saving, Carbon Offset: Concepts and Exercises |
Link |
Fuels Refractory and Furnaces |
Lecture 40 - Furnace efficiency, Fuel Saving, Carbon Offset: Concepts and Exercises |
Link |
Introduction to Biomaterials |
Lecture 1 - Introduction to basic concepts of Biomaterials Science; Salient properties of important material classes; overview of body environment, |
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Introduction to Biomaterials |
Lecture 2 - Manufacturing and properties of metals, ceramics, polymers and composites |
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Introduction to Biomaterials |
Lecture 3 - Concept of biocompatibility, host response, structure-property of biological cell |
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Introduction to Biomaterials |
Lecture 4 - Structure and properties of cells, protein and cellular adaptation process |
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Introduction to Biomaterials |
Lecture 5 - Cell-I |
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Introduction to Biomaterials |
Lecture 6 - Cell-II |
Link |
Introduction to Biomaterials |
Lecture 7 - Cell Migration and Cell Division and cell death |
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Introduction to Biomaterials |
Lecture 8 - Cell Differentiation and Cell Death |
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Introduction to Biomaterials |
Lecture 9 - Cell Apoptosis-I |
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Introduction to Biomaterials |
Lecture 10 - Cell Apoptosis-II |
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Introduction to Biomaterials |
Lecture 11 - Structure and properties of Protein; cell - material interaction |
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Introduction to Biomaterials |
Lecture 12 - Assessment of biocompatibility of biomaterials |
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Introduction to Biomaterials |
Lecture 13 - Biological testing (hemocompatibility, tribological testing) |
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Introduction to Biomaterials |
Lecture 14 - Structure and properties of bone as well as in vivo testing and histocompatibility assessment |
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Introduction to Biomaterials |
Lecture 15 - Important biometallic alloys |
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Introduction to Biomaterials |
Lecture 16 - Ti Alloy |
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Introduction to Biomaterials |
Lecture 17 - Co-Cr-Mo alloys |
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Introduction to Biomaterials |
Lecture 18 - Bioceramics |
Link |
Introduction to Biomaterials |
Lecture 19 - Processing of Bioceramics |
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Introduction to Biomaterials |
Lecture 20 - Ceramics, Bioceramics and Glasses |
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Introduction to Biomaterials |
Lecture 21 - Sintering and mechanical properties of ceramics |
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Introduction to Biomaterials |
Lecture 22 - Fracture and toughening of ceramic composites |
Link |
Introduction to Biomaterials |
Lecture 23 - Development of based bioceramic composites for hard tissue replacement |
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Introduction to Biomaterials |
Lecture 24 - Alternative phosphate materials, based composites with bactericidal property and glass ceramics for dental restoration |
Link |
Introduction to Biomaterials |
Lecture 25 - Electrostatic Spraying of UHMWPE-HA-CNT composites |
Link |
Introduction to Biomaterials |
Lecture 26 - Thin Films and Coatings |
Link |
Introduction to Biomaterials |
Lecture 27 - hermal Spray Coatings |
Link |
Introduction to Biomaterials |
Lecture 28 - Biocompatibility of plasma sprayed CNT reinforced Hydroxyapatite biocomposite coatings |
Link |
Introduction to Biomaterials |
Lecture 29 - Biocompatibility of Alumina and CNT reinforced Hydroxyapatite |
Link |
Introduction to Biomaterials |
Lecture 30 - Glass-ceramics for dental restoration applications |
Link |
Introduction to Biomaterials |
Lecture 31 - Structure and properties of polymers |
Link |
Introduction to Biomaterials |
Lecture 32 - Biodegradable polymers (Importance) |
Link |
Introduction to Biomaterials |
Lecture 33 - Biodegradable polymers (Types) |
Link |
Introduction to Biomaterials |
Lecture 34 - Mechanisms of Bioerosion |
Link |
Introduction to Biomaterials |
Lecture 35 - External field and material interaction |
Link |
Introduction to Biomaterials |
Lecture 36 - Tissue Engineering and wound healing |
Link |
Introduction to Biomaterials |
Lecture 37 - Understanding Design Concepts of Bio-implants |
Link |
Introduction to Biomaterials |
Lecture 38 - Understanding Design Concepts of Dental-implants |
Link |
Introduction to Biomaterials |
Lecture 39 - Understanding Design Concepts of Orthopedic-implant |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 1 - Introduction to Course |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 2 - Measurement of Quantities |
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Materials and Energy balance in Metallurgical Processes |
Lecture 3 - Exercises on Measurement of Quantities, Introduction to Stoichiometry |
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Materials and Energy balance in Metallurgical Processes |
Lecture 4 - Stoichiometry Concept and Exercise |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 5 - Exercise on Stoichiometry and Introduction to Thermochemistry |
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Materials and Energy balance in Metallurgical Processes |
Lecture 6 - Thermochemistry |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 7 - Exercise on Thermochemistry & Frequently Asked Questions |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 8 - Errors in Measurements |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 9 - Basics of Materials & Energy Balance |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 10 - Introduction to Mineral Beneficiation |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 11 - Materials Balance in Mineral Processing and Faq |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 12 - Exercises in Mineral Processing |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 13 - Calcination Concepts & Exercises |
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Materials and Energy balance in Metallurgical Processes |
Lecture 14 - Pyromet ExtractionUnit Processes |
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Materials and Energy balance in Metallurgical Processes |
Lecture 15 - Predominance Area Diagram |
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Materials and Energy balance in Metallurgical Processes |
Lecture 16 - Material Balance in Roasting;illustration |
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Materials and Energy balance in Metallurgical Processes |
Lecture 17 - Heat Balance in Roasting illustration |
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Materials and Energy balance in Metallurgical Processes |
Lecture 18 - Exersises on Roasting |
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Materials and Energy balance in Metallurgical Processes |
Lecture 19 - Exercises on Roasting |
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Materials and Energy balance in Metallurgical Processes |
Lecture 20 - Smelting Matte Smelting |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 21 - Exercise-I Matte Smelting |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 22 - Exercise-II Matte Smelting |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 23 - Reduction Smelting |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 24 - Lead Smelting Material Balance |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 25 - Imperial Smelting Process |
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Materials and Energy balance in Metallurgical Processes |
Lecture 26 - Introduction to Ironmaking |
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Materials and Energy balance in Metallurgical Processes |
Lecture 27 - Coke Making |
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Materials and Energy balance in Metallurgical Processes |
Lecture 28 - Ironmaking Fundamentals |
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Materials and Energy balance in Metallurgical Processes |
Lecture 29 - Material & Heat Balance in Ironmaking - I |
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Materials and Energy balance in Metallurgical Processes |
Lecture 30 - Material & Heat Balance in Ironmaking - II |
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Materials and Energy balance in Metallurgical Processes |
Lecture 31 - RIST Diagram - I |
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Materials and Energy balance in Metallurgical Processes |
Lecture 32 - RIST Diagram - II |
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Materials and Energy balance in Metallurgical Processes |
Lecture 33 - Concepts in Converting |
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Materials and Energy balance in Metallurgical Processes |
Lecture 34 - Exercise in Converting |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 35 - Additional Topics - I Melting in Cupola |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 36 - Additional Topics - II Gasification |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 37 - Additional Topics - III Material Balance in Gasification |
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Materials and Energy balance in Metallurgical Processes |
Lecture 38 - Additional Topics - IV Industrial Furnaces |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 39 - Energy Balance in Industrial Furnaces |
Link |
Materials and Energy balance in Metallurgical Processes |
Lecture 40 - Thoughts on Application of Energy Balance |
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Optoelectronic Materials and Devices |
Lecture 1 - Conductivity of materials, Drude’s theory and its failures |
Link |
Optoelectronic Materials and Devices |
Lecture 2 - Free electron theory |
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Optoelectronic Materials and Devices |
Lecture 3 - Free electron theory |
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Optoelectronic Materials and Devices |
Lecture 4 - Crystal structure, Reciprocal lattice I |
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Optoelectronic Materials and Devices |
Lecture 5 - Reciprocal lattice II, Brillouin zone and Bragg’s diffraction condition |
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Optoelectronic Materials and Devices |
Lecture 6 - Electrons in a crystal, Bloch’s electron |
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Optoelectronic Materials and Devices |
Lecture 7 - Free electron band diagrams in an empty lattice |
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Optoelectronic Materials and Devices |
Lecture 8 - Effect of periodic potential, Origin of band-gap through Kronig-Penny model |
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Optoelectronic Materials and Devices |
Lecture 9 - Electron dynamics |
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Optoelectronic Materials and Devices |
Lecture 10 - Conduction in relation to band diagrams |
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Optoelectronic Materials and Devices |
Lecture 11 - Semiconductor E-k diagrams and their material properties |
Link |
Optoelectronic Materials and Devices |
Lecture 12 - Equilibrium carrier statistics in semiconductors: density of states, fermi function and population density in bands |
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Optoelectronic Materials and Devices |
Lecture 13 - Equilibrium carrier statistics in semiconductors: qualitative examination of carrier densities in conduction and valence bands |
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Optoelectronic Materials and Devices |
Lecture 14 - Equilibrium carrier statistics in semiconductors: quantitative examination of carrier densities in intrinsic semiconductor |
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Optoelectronic Materials and Devices |
Lecture 15 - Doping in semiconductors |
Link |
Optoelectronic Materials and Devices |
Lecture 16 - Equilibrium carrier statistics in semiconductors: complete ionization of dopant levels |
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Optoelectronic Materials and Devices |
Lecture 17 - Equilibrium carrier statistics in semiconductors: carrier freeze out |
Link |
Optoelectronic Materials and Devices |
Lecture 18 - Semiconductor junctions in band-diagrams |
Link |
Optoelectronic Materials and Devices |
Lecture 19 - Linear dielectric behavior |
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Optoelectronic Materials and Devices |
Lecture 20 - Non-linear dielectric behavior |
Link |
Optoelectronic Materials and Devices |
Lecture 21 - Carrier recombination-generation - I: band-to-band transition |
Link |
Optoelectronic Materials and Devices |
Lecture 22 - Carrier recombination-generation - II: Other mechanisms |
Link |
Optoelectronic Materials and Devices |
Lecture 23 - R-G statistics via R-G centers |
Link |
Optoelectronic Materials and Devices |
Lecture 24 - Optoelectronic materials and bandgap engineering |
Link |
Optoelectronic Materials and Devices |
Lecture 25 - Optical properties of materials |
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Optoelectronic Materials and Devices |
Lecture 26 - Optical properties of single interfaces: Fresnal reflection coefficients |
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Optoelectronic Materials and Devices |
Lecture 27 - Optical Properties of two interfaces: thin film case |
Link |
Optoelectronic Materials and Devices |
Lecture 28 - Drift |
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Optoelectronic Materials and Devices |
Lecture 29 - Diffusion |
Link |
Optoelectronic Materials and Devices |
Lecture 30 - Continuity Equation |
Link |
Optoelectronic Materials and Devices |
Lecture 31 - Resistor and diode (p-n junction) |
Link |
Optoelectronic Materials and Devices |
Lecture 32 - Fundamentals of p-n junction |
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Optoelectronic Materials and Devices |
Lecture 33 - Fundamentals of p-n junction (Continued...) |
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Optoelectronic Materials and Devices |
Lecture 34 - Solar cells |
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Optoelectronic Materials and Devices |
Lecture 35 - Microelectronics processing |
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Optoelectronic Materials and Devices |
Lecture 36 - MOS capacitor |
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Optoelectronic Materials and Devices |
Lecture 37 - Transistor |
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Optoelectronic Materials and Devices |
Lecture 38 - Organic Electronics |
Link |
Optoelectronic Materials and Devices |
Lecture 39 - Organic Light Emitting Diodes |
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Optoelectronic Materials and Devices |
Lecture 40 - Organic Solar Cells and Organics Thin Film Transistors |
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Steel Making |
Lecture 1 |
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Steel Making |
Lecture 2 |
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Steel Making |
Lecture 3 |
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Steel Making |
Lecture 4 |
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Steel Making |
Lecture 5 |
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Steel Making |
Lecture 6 |
Link |
Steel Making |
Lecture 7 |
Link |
Steel Making |
Lecture 8 |
Link |
Steel Making |
Lecture 9 |
Link |
Steel Making |
Lecture 10 |
Link |
Steel Making |
Lecture 11 |
Link |
Steel Making |
Lecture 12 |
Link |
Steel Making |
Lecture 13 |
Link |
Steel Making |
Lecture 14 |
Link |
Steel Making |
Lecture 15 |
Link |
Steel Making |
Lecture 16 |
Link |
Steel Making |
Lecture 17 |
Link |
Steel Making |
Lecture 18 |
Link |
Steel Making |
Lecture 19 |
Link |
Steel Making |
Lecture 20 |
Link |
Steel Making |
Lecture 21 |
Link |
Steel Making |
Lecture 22 |
Link |
Steel Making |
Lecture 23 |
Link |
Steel Making |
Lecture 24 |
Link |
Steel Making |
Lecture 25 |
Link |
Steel Making |
Lecture 26 |
Link |
Steel Making |
Lecture 27 |
Link |
Steel Making |
Lecture 28 |
Link |
Steel Making |
Lecture 29 |
Link |
Steel Making |
Lecture 30 |
Link |
Steel Making |
Lecture 31 |
Link |
Steel Making |
Lecture 32 |
Link |
Steel Making |
Lecture 33 |
Link |
Steel Making |
Lecture 34 |
Link |
Steel Making |
Lecture 35 |
Link |
Steel Making |
Lecture 36 |
Link |
Steel Making |
Lecture 37 |
Link |
Steel Making |
Lecture 38 |
Link |
Steel Making |
Lecture 39 |
Link |
Steel Making |
Lecture 40 |
Link |
Steel Making |
Lecture 41 |
Link |
Steel Making |
Lecture 42 |
Link |
Structure of Materials |
Lecture 1 - Overview |
Link |
Structure of Materials |
Lecture 2 - Geometry of Crystals: Symmetry, Lattices |
Link |
Structure of Materials |
Lecture 3 - Geometry of Crystals: Symmetry, Lattices |
Link |
Structure of Materials |
Lecture 4 - Geometry of Crystals: Symmetry, Lattices |
Link |
Structure of Materials |
Lecture 5 - Geometry of Crystals: Symmetry, Lattices |
Link |
Structure of Materials |
Lecture 6 - Geometry of Crystals: Symmetry, Lattices |
Link |
Structure of Materials |
Lecture 7 - Geometry of Crystals: Symmetry, Lattices |
Link |
Structure of Materials |
Lecture 8 - Geometry of Crystals: Symmetry, Lattices |
Link |
Structure of Materials |
Lecture 9 - Geometry of Crystals: Symmetry, Lattices |
Link |
Structure of Materials |
Lecture 10 - Geometry of Crystals: Symmetry, Lattices |
Link |
Structure of Materials |
Lecture 11 - Geometry of Crystals: Symmetry, Lattices |
Link |
Structure of Materials |
Lecture 12 - Geometry of Crystals: Symmetry, Lattices (Continued...) and Miller Indices |
Link |
Structure of Materials |
Lecture 13 - Miller Indices |
Link |
Structure of Materials |
Lecture 14 - Miller Indices (Continued...) and Crystal Structures |
Link |
Structure of Materials |
Lecture 15 - Crystal Structures |
Link |
Structure of Materials |
Lecture 16 - Crystal Structures |
Link |
Structure of Materials |
Lecture 17 - Crystal Structures |
Link |
Structure of Materials |
Lecture 18 - Crystal Structures |
Link |
Structure of Materials |
Lecture 19 - Crystal Structures |
Link |
Structure of Materials |
Lecture 20 - Crystal Structures |
Link |
Structure of Materials |
Lecture 21 - Crystal Structures (Continued...) and Defects in Crystals |
Link |
Structure of Materials |
Lecture 22 - Defects in Crystals |
Link |
Structure of Materials |
Lecture 23 - Defects in Crystals |
Link |
Structure of Materials |
Lecture 24 - Defects in Crystals |
Link |
Structure of Materials |
Lecture 25 - Defects in Crystals |
Link |
Structure of Materials |
Lecture 26 - Defects in Crystals |
Link |
Structure of Materials |
Lecture 27 - Defects in Crystals |
Link |
Structure of Materials |
Lecture 28 - Defects in Crystals |
Link |
Structure of Materials |
Lecture 29 - Defects in Crystals |
Link |
Structure of Materials |
Lecture 30 - Diffusion in Solids |
Link |
Structure of Materials |
Lecture 31 - Diffusion in Solids |
Link |
Structure of Materials |
Lecture 32 - Phase Diagrams |
Link |
Structure of Materials |
Lecture 33 - Phase Diagrams |
Link |
Structure of Materials |
Lecture 34 - Phase Diagrams |
Link |
Structure of Materials |
Lecture 35 - Phase Diagrams |
Link |
Structure of Materials |
Lecture 36 - Phase Diagrams |
Link |
Structure of Materials |
Lecture 37 - Phase Transformations |
Link |
Structure of Materials |
Lecture 38 - Phase Transformations |
Link |
Structure of Materials |
Lecture 39 - Phase Transformations |
Link |
Structure of Materials |
Lecture 40 - Phase Transformations |
Link |
Structure of Materials |
Lecture 41 - Phase Transformations |
Link |
Structure of Materials |
Lecture 42 - Phase Transformations |
Link |
Structure of Materials |
Lecture 43 - Phase Transformations |
Link |
Structure of Materials |
Lecture 44 - Phase Transformations |
Link |
Structure of Materials |
Lecture 45 - Phase Transformations |
Link |
Environmental Degradation of Materials |
Lecture 1 - Introduction, Basic definition of corrosion |
Link |
Environmental Degradation of Materials |
Lecture 2 - Forms of Degradation, Thermodynamics of corrosion |
Link |
Environmental Degradation of Materials |
Lecture 3 - Thermodynamics of corrosion |
Link |
Environmental Degradation of Materials |
Lecture 4 - Thermodynamics of corrosion |
Link |
Environmental Degradation of Materials |
Lecture 5 - Thermodynamics of corrosion, Electrochemical series, Concentration cell |
Link |
Environmental Degradation of Materials |
Lecture 6 - Reduction Potential series, Pourbaix diagram |
Link |
Environmental Degradation of Materials |
Lecture 7 - Pourbaix diagram |
Link |
Environmental Degradation of Materials |
Lecture 8 - Pourbaix diagram |
Link |
Environmental Degradation of Materials |
Lecture 9 - Pourbaix diagram, Kinetics of corrosion |
Link |
Environmental Degradation of Materials |
Lecture 10 - Kinetics of corrosion, Rate expression, Solved problems |
Link |
Environmental Degradation of Materials |
Lecture 11 - Solved problems on the corrosion rate, Exchange current density |
Link |
Environmental Degradation of Materials |
Lecture 12 - Exchange current density, Polarization, Activation Polarization, Tafel Equation |
Link |
Environmental Degradation of Materials |
Lecture 13 - Activation Polarization, Concentration Polarization |
Link |
Environmental Degradation of Materials |
Lecture 14 - Concentration Polarization, Mixed Potential Theory |
Link |
Environmental Degradation of Materials |
Lecture 15 - Mixed Potential Theory, Explanation of corrosion events on the basis of Mixed potential theory, Galvanization |
Link |
Environmental Degradation of Materials |
Lecture 16 - Explanation of corrosion events on the basis of Mixed potential theory, Effect of impurity, Effect of area factor |
Link |
Environmental Degradation of Materials |
Lecture 17 - Explanation of corrosion events on the basis of Mixed potential theory, Effect of area factor, Concentration polarization, Passivation |
Link |
Environmental Degradation of Materials |
Lecture 18 - Passivation and Mixed potential theory |
Link |
Environmental Degradation of Materials |
Lecture 19 - Passivation and Mixed potential theory |
Link |
Environmental Degradation of Materials |
Lecture 20 - Different corrosion protection mechanisms, electrochemical ways of protection, cathodic protection |
Link |
Environmental Degradation of Materials |
Lecture 21 - Cathodic and anodic protection |
Link |
Environmental Degradation of Materials |
Lecture 22 - Anodic protection, Forms of corrosion, Factors of corrosion |
Link |
Environmental Degradation of Materials |
Lecture 23 - Forms of corrosion, Uniform Corrosion, Galvanic corrosion |
Link |
Environmental Degradation of Materials |
Lecture 24 - Galvanic corrosion |
Link |
Environmental Degradation of Materials |
Lecture 25 - Crevice corrosion |
Link |
Environmental Degradation of Materials |
Lecture 26 - Crevice corrosion, Pitting corrosion |
Link |
Environmental Degradation of Materials |
Lecture 27 - Pitting corrosion, Intergranular corrosion |
Link |
Environmental Degradation of Materials |
Lecture 28 - Intergranular corrosion, Dealloying |
Link |
Environmental Degradation of Materials |
Lecture 29 - Dealloying, Erosion corrosion |
Link |
Environmental Degradation of Materials |
Lecture 30 - Erosion corrosion, Cavitation |
Link |
Environmental Degradation of Materials |
Lecture 31 - Cavitation, Fretting corrosion, corrosion cracking |
Link |
Environmental Degradation of Materials |
Lecture 32 - Stress corrosion cracking: mechanisms (dissolution controlled) |
Link |
Environmental Degradation of Materials |
Lecture 33 - Stress corrosion cracking: mechanisms (cleavage controlled), factors affecting SCC, hydrogen embrittlement, corrosion fatigue |
Link |
Environmental Degradation of Materials |
Lecture 34 - Biologically influenced corrosion, liquid metal attack |
Link |
Environmental Degradation of Materials |
Lecture 35 - Corrosion protection, change of materials, effect of design of component |
Link |
Environmental Degradation of Materials |
Lecture 36 - Corrosion protection, change of environment, Inhibitors, coatings |
Link |
Environmental Degradation of Materials |
Lecture 37 - Oxidation and hot corrosion, pitting Bedworth ratio, thermodynamics of oxidation |
Link |
Environmental Degradation of Materials |
Lecture 38 - Thermodynamics of oxidation, Ellingham diagram, oxidation kinetics and laws |
Link |
Environmental Degradation of Materials |
Lecture 39 - Oxide structure and Oxidation |
Link |
Environmental Degradation of Materials |
Lecture 40 - Hot corrosion, corrosion testing and failure analysis, linear polarization |
Link |
Environmental Degradation of Materials |
Lecture 41 - Degradation of composites, polymers and ceramics, corrosion and society |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 1 - Introduction to the course |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 2 - Heterogeneous equilibrium and Free energy Formalism |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 3 - Concept of Chemical Potential |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 4 - Phase Rule-I |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 5 - Phase Rule-II and Single Component Equilibria |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 6 - Single Component Phase Diagram |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 7 - Binary Phase Diagram - Isomorphous Diagram |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 8 - Binary Ispmorphous System |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 9 - Solidification of Isomorphous Alloys |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 10 - Free Energy of Binary Isomorphous Phase Diagram |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 11 - Phase Diagram of Binary Eutectic Systems Edit Lesson |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 12 - Solidification of eutectic, hypo-eutectic and hyper-eutectic alloys & their morphologies - I |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 13 - Solidification of eutectic, hypo-eutectic and hyper-eutectic alloys & their morphologies - II |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 14 - Phase diagrams of binary eutectic two terminal solid solution |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 15 - Phase diagrams of binary peritectic System - I |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 16 - Phase diagrams of binary peritectic System - II |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 17 - Phase diagrams of binary peritectic System with intermediate phases |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 18 - Intermediate Phases |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 19 - Introduction to Monotectic Phase Diagram |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 20 - Microstructural Evolution of Monotectic Phase Diagram |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 21 - Free Energy Composition diagrams for Monotectic systems and Syntactic phase diagram |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 22 - Quasichemical theory - I |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 23 - Quasichemical theory - II |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 24 - Quasichemical theory Free enegy formalism |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 25 - Solid state reaction |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 26 - Introduction to Iron-Carbon phase diagram |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 27 - Eutectoid transformation in Iron-Carbon phase diagram |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 28 - Austenite to pearlite transformation in Iron-Carbon phase diagram |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 29 - Hypo-eutectoid steels |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 30 - Pearlite Transformation |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 31 - Martensite Transformation - I |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 32 - Martensite Transformation - II |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 33 - Tempering of Martensite |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 34 - Bainite Transformation |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 35 - TTT curves for Steel |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 36 - Cast Iron - I |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 37 - Cast Iron - II |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 38 - Ductile Iron and Nodular Iron |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 39 - Malleable Iron |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 40 - Alloyed Cast Iron |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 41 - Phase Diagram for different Solid State Reaction |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 42 - Phase Diagram of Ceramic |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 43 - Ternary Phase Diagram - I |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 44 - Ternary Phase Diagram - II |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 45 - Ternary Phase Diagram and Tie Line Construction - I |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 46 - Ternary Phase Diagram and Tie Line Construction - II |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 47 - Ternary Phase Diagram and Tie Line Construction - III |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 48 - Ternary Isomorphous Phase Diagram |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 49 - Ternary Three Phase Equilibria |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 50 - Three Phase Equilibria in Ternary Systems - I |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 51 - Three Phase Equilibria in Ternary Systems - II |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 52 - Solidification Behaviour of Ternary Alloy |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 53 - Three Phase Equilibria |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 54 - Ternary Four Phase Equilibria - I |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 55 - Ternary Four Phase Equilibria - II |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 56 - Solidification Behaviour of Ternary Eutectic Alloys |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 57 - Phase Diagram of Ternary Eutectic with Terminal Solid Solution |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 58 - Ternary Peritectic Reaction |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 59 - Quasi-peritectic Reaction |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 60 - Case Studies on Ternary Phase Diagrams - I |
Link |
NOC:Phase Diagrams in Materials Science and Engineering |
Lecture 61 - Case Studies on Ternary Phase Diagrams - II |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 1 - Introduction |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 2 - Solidification (Casting) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 3 - Solidification (Welding) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 4 - Thermodynamics of Solidification |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 5 - Kinetics of Solidification (Homogeneous) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 6 - Kinetics of Solidification (Heterogeneous) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 7 - Heat Flow |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 8 - Heat Flow (Continued...) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 9 - Heat Flow (Insulating Mold Condition) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 10 - Heat Flow (Insulating Mold Condition) (Continued...) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 11 - Heat Flow (Interface Resistance Controlled Solidification) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 12 - Heat Flow (Effect of Superheat) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 13 - Heat Flow (Solidification of Alloys) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 14 - Composition Variation |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 15 - Composition Variation (Continued...) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 16 - Complete and Limited Liquid Diffusion |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 17 - Mixed Mode Solidification |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 18 - Mixed Mode Solidification and Zone Refining |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 19 - Zone Refining (Continued...) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 20 - Cellular Solidification of Single Phase Alloy |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 21 - Cellular Solidification of Single Phase Alloy (Continued...) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 22 - Cellular Solidification of Single Phase Alloy (Continued...) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 23 - Plane Front Solidification of Multiphase Alloy |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 24 - Plane Front Solidification of Multiphase Alloy (Continued...) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 25 - Fluid Flow Considerations |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 26 - Introduction to Powder Processing |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 27 - Introduction to Powder Processing (Continued...) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 28 - Powder characterization |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 29 - Powder Characterization Techniques |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 30 - Powder Characterization using Surface Area |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 31 - Powder Characterization using Gas Permeability Method |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 32 - Powder Manufacturing |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 33 - Powder Manufacturing (Continued...) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 34 - Powder Manufacturing (Continued...) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 35 - Powder Consolidation |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 36 - Powder Consolidation (Continued...) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 37 - Particle Packing |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 38 - Powder Compaction |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 39 - Powder Compaction (Continued...) |
Link |
NOC:Fundamentals of Material Processing - I |
Lecture 40 - Sintering Theory |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 1 - Introduction to Heat Treatment and Importance of Material Tetrahedron |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 2 - Case studies in reference to Material tetrahedron T/t information and processing |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 3 - Few more case studies in reference to processing with T/t modification |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 4 - Critical Definition and Phase Transformation Thermodynamics and Driving Force |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 5 - Thermodynamics of Phase Transformation Driving force of Phase Transformation |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 6 - Thermodynamics of Phase Transformation and Driving Force for Phase Transformation |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 7 - Finding Value of Driving Force (?G) and Single Component (liquid-solid) |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 8 - Finding Value of Driving Force (?G) and Nucleation Single Component (liquid-solid) |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 9 - Nucleation Treatment Single Component (Solid-Liquid) - I |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 10 - Nucleation Treatment Single Component (Solid-Liquid) - II |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 11 - Solved Problem on Nucleation rate and How to determine the value of ?sl Physical Concept & Interfacial Energy |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 12 - How to determine the value of ?sl (Physical Concept and Interfacial Energy) |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 13 - Interfacial Energy - I |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 14 - Interfacial Energy - II |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 15 - Heterogeneous Nucleation - I |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 16 - Heterogeneous Nucleation - II |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 17 - Solid - Solid Transformation and Nucleation rate - I |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 18 - Solid - Solid Transformation and Nucleation rate - II |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 19 - Phase Diagram and G vs X plot - I |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 20 - Phase Diagram and G vs X plot - II |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 21 - Phase Diagram and G vs X plot - III |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 22 - Introduction to Kinetics of Phase Transformation |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 23 - Variation of ?G* and r* with Undercooling |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 24 - Nucleation rate - I |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 25 - Nucleation Rate - II |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 26 - Critical Undercooling |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 27 - Maximum nucleation rate for homogeneous nucleation |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 28 - Maximum nucleation rate for heterogeneous nucleation |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 29 - Nucleation kinetics in solid state |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 30 - Interface controlled growth |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 31 - Diffusion controlled growth |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 32 - Avrami Kinetics - I |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 33 - Avrami Kinetics - II |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 34 - Avrami Kinetics - III |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 35 - Time-Temperature-Transformation (TTT) diagram |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 36 - Diffusion in Solids - I |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 37 - Diffusion in Solids - II |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 38 - Diffusion in Solids - III |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 39 - Diffusion in Solids - IV |
Link |
NOC:Heat Treatment and Surface Hardening - I |
Lecture 40 - Applications of heat treatment |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 1 - Introduction to Metal Working |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 2 - Continuum Mechanics |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 3 - Stress Invariants |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 4 - Strain Tensors and Mohr circle for strains |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 5 - Yield Stress Criterion |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 6 - Effective Stress and Strain |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 7 - Work Hardening and Flow Behaviour |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 8 - Effect of Strain Rate |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 9 - Combined Effect of Strain, Strain Rate and Temperature |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 10 - Effect of Temperature |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 11 - Cold, Warm and Hot Working |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 12 - Mechanics of Metal Working |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 13 - Wire Drawing |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 14 - Wire Drawing (Continued...) |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 15 - Hodographs |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 16 - Upper-Bound Analysis |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 17 - Plane Strain Indentation |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 18 - Strain Calculation Models and Friction |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 19 - Types of Friction |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 20 - Effect of Friction in Rolling |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 21 - Vacuum Technology |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 22 - Vacuum Technology (Continued...) |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 23 - Thermal Evaporation |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 24 - Thermal Evaporation (Continued...) |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 25 - Thermal Evaporation (Continued...) |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 26 - Plasma Physics |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 27 - Plasma Physics (Continued...) |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 28 - Sputtering |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 29 - Sputtering (Continued...) |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 30 - Sputtering (Continued...) |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 31 - Chemical Vapor Deposition |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 32 - Chemical Vapor Deposition (Continued...) |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 33 - Chemical Vapor Deposition (Continued...) |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 34 - Chemical Vapor Deposition (Continued...) |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 35 - Epitaxy, Molecular Beam Epitaxy and Atomic Layer Deposition |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 36 - Adsorption and Nucleation |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 37 - Thin Film Growth |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 38 - Kinetics of Thin Film Growth |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 39 - Thin Film Morphology- Zone Structure Model |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 40 - Thin Film Characterization |
Link |
NOC:Fundamentals of Material Processing - Part 2 |
Lecture 41 - Thin Film Characterization |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 1 - Material Evolution |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 2 - Bonding in Materials |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 3 - Correlation between bond and physical properties |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 4 - Crystal Structure: Lattice and Basis |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 5 - Unit Cell (Primitive and Non-primitive) |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 6 - Crystal Systems and Bravais Lattices |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 7 - Bravais Lattice and Symmetry in Crystals |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 8 - Symmetry in Crystals |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 9 - Symmetry and Correlation with the Bravais Lattice |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 10 - Miller Indices (Planes and Directions) |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 11 - Miller Indices - Part 2 |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 12 - Miller Indices - Part 3 |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 13 - Miller Indices and Weiss Zone Law |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 14 - Structure of Metals and Alloys |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 15 - Structure of Metals, Packing, Co-ordination and Interstices |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 16 - Interstices, Solid Solutions and Alloys |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 17 - Solid Solutions: Alloys |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 18 - Solid Solutions: Alloy (Continued...) |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 19 - Covalent Solids |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 20 - Covalent Solids (Continued...) and Ionic Solids |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 21 - Ionic Solids: Stability and Rules of Formation |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 22 - Ionic solids (Continued...) : Formation of structure |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 23 - ionic Solids (Continued...) : Close Packing of anions |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 24 - Ionic Solids (Continued...) : Other cubic structures |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 25 - Ionic Solids (Ceramics) : Remaining cubic and non-cubic structures |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 26 - HCP based Structure |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 27 - Structure of Non-crystalline Solids (glasses) |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 28 - Structure of Non-Crystalline Solids:Glasses (Continued...) |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 29 - Structure of Non-Crystalline Solids (Polymers) |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 30 - Structure of Polymers |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 31 - Structure of Polymers (Continued...) |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 32 - Structure Determination (X-ray Diffraction) |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 33 - X-ray Diffraction |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 34 - X-ray Diffraction (Continued...) |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 35 - X-ray Diffraction (Continued...) |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 36 - X-ray Diffraction (Continued...) |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 37 - X-ray Diffraction (Continued...) |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 38 - Defects in Solids (Point Defects) |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 39 - Point Defect Concentration |
Link |
NOC:Nature and Properties of Materials - An Introductory Course |
Lecture 40 - 2-D Defects |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 1 - Introduction to Defects |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 2 - Equilibrium Points Defects |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 3 - Energy of Vacancy Formation |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 4 - Vacancy Concentration Measurement Techniques |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 5 - Self-interstitial Defects+Frenkel Defects |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 6 - Schottky Defects+Extrinsic Defects |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 7 - Interstitials in Iron |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 8 - Defects Reaction+Kroger-Vink Notation |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 9 - Defects Reaction and its Thermodynamics |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 10 - Equilibrium Concentration using Defects Reaction |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 11 - Examples on defect reaction |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 12 - Diffusion (Interstitial Diffusion) |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 13 - Non-steady state diffusion |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 14 - Self-diffusion + Examples |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 15 - Diffusion in substitutional alloys+Diffusion along defects |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 16 - History of Dislocations |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 17 - Volterra Model + Structure of Dislocations + Burger vectors |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 18 - Characteristics of Dislocations |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 19 - Mixed Dislocations + Dislocation Loops |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 20 - Elastic Continuum Model + Strain field for screw dislocations |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 21 - Stress and Strain Fields |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 22 - Stress State around Edge Dislocations+Elastic Energy of Dislocations |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 23 - Glide Forces on Dislocations+Line Tension on Dislocations |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 24 - Climb Forces on Dislocations+Interaction Between Dislocations |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 25 - Image Forces on Dislocations |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 26 - Resistance to Dislocation Motion+Peierl Nebarro Valley |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 27 - Slip System+Examples |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 28 - Dislocations and Slips+Examples |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 29 - Critical resolved Shear Stress+Examples (Continued...) |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 30 - Glide+Kinks |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 31 - Cross-slip+Climb |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 32 - Climb+Jogs |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 33 - Examples on Jogs+Dislocation Intersection |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 34 - Dislocation Intersection and step characteristics+Superjogs |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 35 - Strain and strain-rate due to dislocation motion+Velocity of dislocations+Observation of dislocations |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 36 - Observation of dislocation (Continued...) + Dislocation Dynamics |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 37 - Dislocations in FCC+Partial dislocations |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 38 - Partial dislocations (Continued...) +Stacking Fault |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 39 - Thompson's Tetrahedron+Examples |
Link |
NOC:Defects in Crystalline Solids - Part I |
Lecture 40 - Dislocations in BCC+Asymmetry of Slip |
Link |
NOC:Corrosion - Part I |
Lecture 1 - Introduction to corrosion - I |
Link |
NOC:Corrosion - Part I |
Lecture 2 - Introduction to corrosion - II |
Link |
NOC:Corrosion - Part I |
Lecture 3 - Types and forms of corrosion |
Link |
NOC:Corrosion - Part I |
Lecture 4 - Uniform and Galvanic corrosion |
Link |
NOC:Corrosion - Part I |
Lecture 5 - Crevice and Pitting corrosion |
Link |
NOC:Corrosion - Part I |
Lecture 6 - Forms of corrosion: Explanation with Examples |
Link |
NOC:Corrosion - Part I |
Lecture 7 - Electrochemical Nature of Corrosion and its Thermodynamics |
Link |
NOC:Corrosion - Part I |
Lecture 8 - Thermodynamics aspects of corrosion - I |
Link |
NOC:Corrosion - Part I |
Lecture 9 - Thermodynamics aspects of corrosion - II |
Link |
NOC:Corrosion - Part I |
Lecture 10 - Thermodynamics aspects ofcorrosion - III |
Link |
NOC:Corrosion - Part I |
Lecture 11 - Relation Between Free Energy and Equilibrium Constant |
Link |
NOC:Corrosion - Part I |
Lecture 12 - Derivation of Nernst Equation |
Link |
NOC:Corrosion - Part I |
Lecture 13 - Standard Reduction Potential Series for Pure Metals |
Link |
NOC:Corrosion - Part I |
Lecture 14 - Reduction Potentials in Acidic and Neutral Solutions |
Link |
NOC:Corrosion - Part I |
Lecture 15 - Nernst equation in terms of pH |
Link |
NOC:Corrosion - Part I |
Lecture 16 - Limitations of Standard Reduction Potential Series of Pure Metals |
Link |
NOC:Corrosion - Part I |
Lecture 17 - Concentration Cell Formation and Galvanic Series |
Link |
NOC:Corrosion - Part I |
Lecture 18 - Examples of Concentration cell and Spontaneity of Corrosion Process |
Link |
NOC:Corrosion - Part I |
Lecture 19 - Spontaneity of Corrosion Process and Introduction to Pourbaix Diagram |
Link |
NOC:Corrosion - Part I |
Lecture 20 - Construction of Pourbaix Diagram |
Link |
NOC:Corrosion - Part I |
Lecture 21 - Construction of Pourbaix diagram for Ni-H2O system - I |
Link |
NOC:Corrosion - Part I |
Lecture 22 - Construction of Pourbaix diagram for Ni-H2O system - II |
Link |
NOC:Corrosion - Part I |
Lecture 23 - Construction of Pourbaix diagram for Ni-H2O system - III |
Link |
NOC:Corrosion - Part I |
Lecture 24 - Pourbaix diagram of Ni-H2O and AI-H2O |
Link |
NOC:Corrosion - Part I |
Lecture 25 - Inferences from Pourbaix diagram of Fe-H2O and AI-H2O |
Link |
NOC:Corrosion - Part I |
Lecture 26 - Estimation of Corrosion Rate - I |
Link |
NOC:Corrosion - Part I |
Lecture 27 - Estimation of Corrosion Rate - II |
Link |
NOC:Corrosion - Part I |
Lecture 28 - Estimation of Corrosion Rate - III |
Link |
NOC:Corrosion - Part I |
Lecture 29 - Exchange Current Density |
Link |
NOC:Corrosion - Part I |
Lecture 30 - Exchange Current Density and Standard Hydrogen Electrode |
Link |
NOC:Corrosion - Part I |
Lecture 31 - Electrical Double Layer and Polarization |
Link |
NOC:Corrosion - Part I |
Lecture 32 - Correlation between Current Density and Overvoltage |
Link |
NOC:Corrosion - Part I |
Lecture 33 - Introduction to Buttler-Volmer Equation |
Link |
NOC:Corrosion - Part I |
Lecture 34 - Derivation of Tafel Equation |
Link |
NOC:Corrosion - Part I |
Lecture 35 - Tafel Plot and Activation Polarization |
Link |
NOC:Corrosion - Part I |
Lecture 36 - Activation polarization, concentration polarization and total polarization |
Link |
NOC:Corrosion - Part I |
Lecture 37 - Summary of concentration polarization (CP) and introduction to mixed potential theory - I |
Link |
NOC:Corrosion - Part I |
Lecture 38 - Mixed potential theory - II |
Link |
NOC:Corrosion - Part I |
Lecture 39 - Understanding of mixed potential theory through the case studies and events of corrosion - I |
Link |
NOC:Corrosion - Part I |
Lecture 40 - Understanding of mixed potential theory through the case studies and events of corrosion - II |
Link |
NOC:Corrosion - Part I |
Lecture 41 - Understanding of mixed potential theory through the case studies and events of corrosion - III |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 1 - Introduction to Solar Energy |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 2 - Solar Radiation |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 3 - Atmospheric Effects on Solar Radiation |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 4 - Effect of Location on Time |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 5 - Sun-Earth Angular Relations |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 6 - Solar Radiation Measurements |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 7 - Introduction to Band Theory |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 8 - Semiconductor Basics - I |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 9 - Semiconductor Basics - II |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 10 - Electrical Properties of Semiconductors |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 11 - Carrier Transport |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 12 - Carrier Transport, Generation and Recombination |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 13 - Recombinaton-Generation statistics |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 14 - Recombinaton-Generation statistics (Continued...) |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 15 - Recombinaton-Generation statistics (Continued...) |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 16 - P-N Junction basics |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 17 - P-N Junction Characterisitics |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 18 - P-N Junction: Effect of Bias |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 19 - P-N Junction Analysis (Dark) |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 20 - P-N Junction Analysis (Dark) |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 21 - P-N Junction Analysis (Light) |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 22 - P-N Junction Analysis (Light) |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 23 - P-N Junction Analysis (Light) |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 24 - P-N Junction Analysis (Light) |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 25 - Solar Cell Device Parameters |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 26 - Solar Cell Device Parameters |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 27 - Solar PV Technologies: Introduction |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 28 - Generation-I Technologies (Mono Silicon Solar Cells) |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 29 - Generation-I Technologies (Mono Silicon Solar Cells) |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 30 - Generation-I Technologies (Poly Silicon Solar Cells) |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 31 - Manufacturing of Si |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 32 - Generation I Technologies: GaAs Solar Cells |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 33 - Generation II Technologies: a-Si Solar Cells |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 34 - Generation II Technologies: CdTe Solar Cells |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 35 - Generation II Technologies: CdTe Solar Cells |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 36 - Generation II Technologies: CIGS Solar Cells |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 37 - Generation II Technologies: CIGS and Multijunction Solar Cells |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 38 - Generation III Technologies: Organic Solar Cells |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 39 - Generation III Technologies: Organic Solar Cells |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 40 - Generation III Technologies: Organic and Dye Sensitized Solar Cells |
Link |
NOC:Solar Photovoltaics: Principles, Technologies and Material |
Lecture 41 - Generation III Technologies: Perovskite and CZTS Solar Cells |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 1 - Dislocation structure in FCC |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 2 - Partial dislocations in FCC |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 3 - Thompsons Tetrahedron |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 4 - Dislocation lock in FCC |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 5 - Other defects in FCC (Twins and Frank Partial) |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 6 - Dislocation structure in BCC |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 7 - Soft core and Hard core for Screw dislocation in BCC |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 8 - Dislocation structure in HCP |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 9 - Burger vector and partial dislocation in HCP |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 10 - Dislocation structure in ionic crystal |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 11 - Dislocation structure in superlattices |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 12 - Stacking fault and Kear-Wilsdorf lock in superlattices |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 13 - Dislocation interaction & Strain hardening |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 14 - Origin and Nucleation of dislocations |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 15 - Multiplication of dislocations |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 16 - Interactin of point defects and dislocation - Solid Solution Strengthening |
Link |
NOC:Defects in Crystalline Solids - Part II |
Lecture 17 - Cottrell atmosphere and Yield-point phenomenon |
Link |
NOC:Corrosion - Part II |
Lecture 1 - Recap of Electrochemical Polarization |
Link |
NOC:Corrosion - Part II |
Lecture 2 - Recap of Electrochemical Polarization - Activation and Concentration Polarization |
Link |
NOC:Corrosion - Part II |
Lecture 3 - Electrochemical Polarization: Activation and Concentration Polarization, Tafel Equation |
Link |
NOC:Corrosion - Part II |
Lecture 4 - Activation and Concentration Polarization: Mixed Potential Theory |
Link |
NOC:Corrosion - Part II |
Lecture 5 - Concentration Polarization and Mixed Potential Theory |
Link |
NOC:Corrosion - Part II |
Lecture 6 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Introduction |
Link |
NOC:Corrosion - Part II |
Lecture 7 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Part 1 |
Link |
NOC:Corrosion - Part II |
Lecture 8 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Part 2 |
Link |
NOC:Corrosion - Part II |
Lecture 9 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Part 2 (Continued...) |
Link |
NOC:Corrosion - Part II |
Lecture 10 - Explanation of Corrosion Processes on the basis of Mixed Potential Theory - Part 3 |
Link |
NOC:Corrosion - Part II |
Lecture 11 - Effect of Exchange Current Density on Corrosion Rate of an Active Metal |
Link |
NOC:Corrosion - Part II |
Lecture 12 - Area Effect of the Cathodic and Anodic Component - I |
Link |
NOC:Corrosion - Part II |
Lecture 13 - Area Effect of the Cathodic and Anodic Component - II |
Link |
NOC:Corrosion - Part II |
Lecture 14 - Explanation of Corrosion Processess on the Basis of Mixed Potential Theory: Numerical Analysis |
Link |
NOC:Corrosion - Part II |
Lecture 15 - Galvanic Coupling between Two Active Metals |
Link |
NOC:Corrosion - Part II |
Lecture 16 - Theory of Sacrificial Anode for the Protection of Steel Objects |
Link |
NOC:Corrosion - Part II |
Lecture 17 - Effect of two Active Metals on Fe-corrosion when they are Galvanically Coupled |
Link |
NOC:Corrosion - Part II |
Lecture 18 - Corrosion of Metals when Cathodic Protection is Concentration Controlled |
Link |
NOC:Corrosion - Part II |
Lecture 19 - Effect of Velocity on the Corrosion Rate of an Active Metal |
Link |
NOC:Corrosion - Part II |
Lecture 20 - Concentration Polarization and Activation Polarization: Numerical Analysis |
Link |
NOC:Corrosion - Part II |
Lecture 21 - Numerical Problems and Passivation |
Link |
NOC:Corrosion - Part II |
Lecture 22 - Theory of Passivation - I |
Link |
NOC:Corrosion - Part II |
Lecture 23 - Theory of Passivation - II |
Link |
NOC:Corrosion - Part II |
Lecture 24 - Interaction between Passivation and Pourbaix Diagram - I |
Link |
NOC:Corrosion - Part II |
Lecture 25 - Interaction between Passivation and Pourbaix Diagram - II |
Link |
NOC:Corrosion - Part II |
Lecture 26 - Passivity |
Link |
NOC:Corrosion - Part II |
Lecture 27 - Interaction of Cathodic Polarization with an Active-Passive Metal |
Link |
NOC:Corrosion - Part II |
Lecture 28 - Interaction of Anodic Polarization with an Active-Passive Metal |
Link |
NOC:Corrosion - Part II |
Lecture 29 - Passivation and Mixed Potential Theory: Case Studies |
Link |
NOC:Corrosion - Part II |
Lecture 30 - Passivation and Mixed Potential Theory: Case Studies (Continued...) |
Link |
NOC:Corrosion - Part II |
Lecture 31 - Effect of Galvanic Coupling between an Active-Passive Metal and a Noble Metal |
Link |
NOC:Corrosion - Part II |
Lecture 32 - Anodic Protection of an Active-Passive Metal and an Introduction of Linear Polarization |
Link |
NOC:Corrosion - Part II |
Lecture 33 - Linear Polarization and Understanding Relative Corrosion Resistance of a Metal |
Link |
NOC:Corrosion - Part II |
Lecture 34 - Oxidation of Metals and Alloys |
Link |
NOC:Corrosion - Part II |
Lecture 35 - Different Stages of Oxidation and Pilling Bedworth Ratio |
Link |
NOC:Corrosion - Part II |
Lecture 36 - Pilling Bedworth Ratio of Different Metal Oxides |
Link |
NOC:Corrosion - Part II |
Lecture 37 - Thermodynamics of Oxidation |
Link |
NOC:Corrosion - Part II |
Lecture 38 - Construction of Ellingham Diagram - I |
Link |
NOC:Corrosion - Part II |
Lecture 39 - Construction of Ellingham Diagram - II |
Link |
NOC:Corrosion - Part II |
Lecture 40 - Kinetics of Oxidation |
Link |
NOC:Corrosion - Part II |
Lecture 41 - Oxide Structure and Oxidation Mechanism |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 1 - Outline of the Course |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 2 - Basics of Crystal Structure |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 3 - Basics of Crystallography and Bonding |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 4 - Arrangement of Atoms in Crystal Lattice |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 5 - Structure Formation: Ionic Solids |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 6 - Pauling's Rule and Crystal Structure of Ceramics |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 7 - Ceramic Materials: Crystal Structure |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 8 - Defect Chemistry |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 9 - Defect Chemistry: Non-Stoichiometric Oxides |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 10 - Concentration and Effect of Intrinsic Impurities |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 11 - Intrinsic and Extrinsic Defects |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 12 - Defect Concentration: Non-Stoichiometric Oxides |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 13 - Intrinsic Ionization in Metal Oxides |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 14 - Brouwer's Diagram |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 15 - Introduction to Dielectrics |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 16 - Dielectric Displacement and Polarization Mechanism |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 17 - Polarization Mechanisms |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 18 - Dielectric Polarizability - 1 |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 19 - Dielectric Polarizability - 2 |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 20 - Frequency Dependence of Dielectrics |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 21 - Losses in Dielectric Materials |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 22 - Frequency Dependence of Dielectric Constant |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 23 - Dipolar Relaxation |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 24 - Debye Equations for Dipolar Relaxation |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 25 - Impedance Spectroscopy |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 26 - Impedance Spectroscopy and Dielectric Breakdown |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 27 - Basics of Non-linear Dielectrics |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 28 - Piezoelectric Effect |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 29 - Pyroelectric Effect and Electrostriction |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 30 - Thermodynamics of Piezoelectric and Pyroelectric Materials |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 31 - Basics of Ferroelectric Materials |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 32 - Ferroelectric Phase Transitions |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 33 - Thermodynamics of Phase Transition in Ferroelectrics |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 34 - Second Order Phase Transition in Ferroelectric Materials |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 35 - First Order Phase Transition in Ferroelectric Materials |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 36 - Domain Walls in Ferroelectric Materials |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 37 - Domain Structure and Properties of Ferroelectric Materials |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 38 - Phase Diagram and Measurements of Ferroelectric Materials |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 39 - Principal of Measurements and Applications of Piezoelectric and Pyroelectric Materials |
Link |
NOC:Fundamentals and Applications of Dielectric Ceramics |
Lecture 40 - Applications of Piezoelectric and Pyroelectric Materials |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 1 - Introduction to the Course |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 2 - Basic Material Properties - Stress and Strain Tensor |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 3 - Normal and Shear Stress and Transformation of Axes |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 4 - Transformation of Axes and Principle Stresses |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 5 - True and Engineering Stress and Strain |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 6 - Illustration to True and Engineering Stress and Strain |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 7 - Tensor Notation of Strain |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 8 - Introduction to Elasticity and Elastic Properties |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 9 - Theory of Elasticity |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 10 - Atomic Basis of Elasticity |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 11 - Elasticity of Different Materials, Design of Composites |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 12 - Composites, Anelastic Behaviour |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 13 - Stress-Strain Curve and Anelasticity |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 14 - Mechanism of Anelasticity |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 15 - Relaxation Time and Damping Capacity |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 16 - Plastic Deformation of Materials |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 17 - True and Engineering Stress-Strain Curves |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 18 - Necking Phenomenon During Tension Test |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 19 - Microscopic Mechanism of Plastic Deformation |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 20 - Introduction to Slip |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 21 - Slip Systems |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 22 - Resolved Shear Stress |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 23 - Critical Resolved Shear Stress |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 24 - Theoretical Strength and Role of Dislocations |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 25 - Dislocations and Slip - I |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 26 - Dislocations and Slip - II |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 27 - Dislocations and Peirells Nabarro Stress |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 28 - Dislocation Generation: Frank Read Source |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 29 - Dislocations and Strengthening |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 30 - Strain Hardening |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 31 - Grain Boundary Strengthening |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 32 - Solid Solution Strengthening |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 33 - Precipitation Hardening |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 34 - Electrical Conduction in Metals |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 35 - Free Electron Theory |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 36 - Fermi-Dirac Statistics and Electronic conductivity of Metals |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 37 - Fundamental of Semiconductors |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 38 - Band Theory |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 39 - Intrinsic Semiconductors |
Link |
NOC:Properties of Materials (Nature and Properties of Materials-III) |
Lecture 40 - Extrinsic Semiconductors |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 1 - Introduction to the Course and Thermodynamics Refresher |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 2 - The Second law of Thermodynamics |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 3 - Application of Second law and Illustration of Intermixing as Irreversible Process |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 4 - Equilibrium, Stability and Phase Diagrams in Single Component Systems |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 5 - Third Law of Thermodynamics and Numerical Examples |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 6 - Thermodynamic Activity and Gibbs Free Energy of Mixing |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 7 - Entropy of mixing of Multicomponent Ideal Solution |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 8 - Regular Solution Model: Application to Ternary System |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 9 - Gibbs Free Energy-Composition Curves, Phase Diagrams and Gibbs Phase rule |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 10 - Exercise: Solution Thermodynamics |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 11 - Driving force for Diffusion, Chemical Potentials and Concentrations |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 12 - Diffusion flux and Frames of Reference |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 13 - Fick’s Law |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 14 - Exercise: Deriving Sigma Cosine for any Cubic Lattice |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 15 - Fick's Law for Multicomponent Diffusion |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 16 - Diffusion Equation and Solution to Steady State Diffusion |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 17 - Conversion of Set of Interdiffusion Coefficients from One Dependent Compared to Another |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 18 - Refresher on Laplace Transform |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 19 - Error Function and Its Laplace transform |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 20 - Instantaneous Planar Source: Solution to Diffusion Equation and Its Applications |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 21 - Solution to Diffusion Equation for Semi-Infinite Slab and Its Application in Carburizing of Steel |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 22 - Solution to Diffusion Equation for Binary Diffusion Couple |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 23 - Solution to Diffusion Equation for Multicomponent Diffusion Couple |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 24 - Nature of Concentration Profiles in Binary and Multicomponent Diffusion Couples |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 25 - Numerical Problems |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 26 - Homogenization of Multicomponent alloys |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 27 - Solution to Diffusion Equation: Periodic Boundary Conditions |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 28 - Energetics of Vacancy Formation |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 29 - Experimental Determination of Enthalpy of Vacancy Formation |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 30 - Mechanisms of Diffusion in Metals and Alloys |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 31 - Point Defects in Intermetallics and Ionic Compounds |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 32 - Diffusion Mechanisms in Intermetallics |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 33 - Theory of Random Walk: Mean Squared Displacement |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 34 - Physical Significance of Diffusivity: Einstein-Smoluchowski Equation |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 35 - Derivation of Correlation Factors in Cubic Crystals by Vacancy Mechanism |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 36 - Correlation Factors for Substitutional Diffusion by Vacancy Mechanism in FCC Crystal |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 37 - Correlation Effects in BCC and Diamond Cubic for Vacancy Mechanism |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 38 - Practice Problems |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 39 - Deriving Relation Between Diffusion Flux and Chemical Potential Gradients |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 40 - Atomic Mobility, Diffusivity and Diffusion Under External Driving Force |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 41 - Non-Ideality as Driving Force |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 42 - Theory of diffusion |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 43 - Experimental Determination of Interdiffusion Coefficients: Boltzmann Matano Analysis |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 44 - Analysis of Interdiffusion Fluxes in Multicomponent Diffusion Couples |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 45 - Various Techniques for Experimental Determination of Multicomponent Interdiffusion Coefficients |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 46 - Experiement Determination of Interdiffusion Coefficients: Examples from Literature |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 47 - Intrinsic Diffusion and Kirkendall Effect |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 48 - Experiemental Determination of Intrinsic Diffusion Coefficients |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 49 - A Brief Introduction to Ternary Phase Diagram |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 50 - Multiphase Diffusion: Diffusion Paths and Diffusion Structures |
Link |
NOC:Diffusion in Multicomponent Solids |
Lecture 51 - Interdiffusion Analysis of Multiphase Diffusion Couples |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 1 - An introduction to corrosion failure and analysis |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 2 - Various forms of corrosion |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 3 - Discussion of various factors affecting corrosion |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 4 - Forms of corrosion: Uniform corrosion - Part 1 |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 5 - Forms of corrosion: Uniform corrosion - Part 2 |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 6 - Galvanic corrosion - I |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 7 - Galvanic corrosion - II |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 8 - Galvanic corrosion - III |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 9 - Galvanic corrosion - IV |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 10 - Importance of galvanic series |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 11 - Factors associated with galvanic corrosion: Case study 1 |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 12 - Factors associated with galvanic corrosion: Case study 2 |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 13 - Factors associated with galvanic corrosion: Case study 3 |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 14 - Preventive measures and advantages of galvanic corrosion |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 15 - Dealloying/Selective leaching |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 16 - Dealloying or selective leaching: Mechanism |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 17 - Dealloying or selective leaching: Applications and protection methods |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 18 - Graphitic corrosion and protection from dezincification |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 19 - Intergranular Corrosion |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 20 - Intergranular corrosion in case of 304, 321 and 347 stainless steel |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 21 - Intergranular Corrosion: Sensitization and Weld Decay |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 22 - Intergranular Corrosion: Control of Sensitization - Weld Decay |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 23 - Intergranular Corrosion: Knife Line Attack and Prevention Methods |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 24 - Crevice Corrosion: Introduction |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 25 - Crevice Corrosion: Mechanism |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 26 - Crevice corrosion: Mechanism and Various stages |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 27 - Crevice corrosion: Case studies and Protection methods |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 28 - Pitting corrosion: Introduction and Case studies |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 29 - Various conditions favouring pitting corrosion - I |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 30 - Various conditions favouring pitting corrosion - II |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 31 - Various conditions favouring pitting corrosion - III |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 32 - Pitting Corrosion: Mechanism and Protection |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 33 - Erosion Corrosion: Introduction |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 34 - Erosion Corrosion: Characteristics |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 35 - Erosion Corrosion: Protection methods and cavitation corrosion |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 36 - Cavitation corrosion and its case studies |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 37 - Cavitation corrosion, Fretting corrosion and their preventive measures |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 38 - Environmental cracking or stress assisted corrosion failures |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 39 - Stress corrosion cracking: Mechanism - I |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 40 - Stress corrosion cracking: Mechanism - II |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 41 - Stress corrosion cracking: Mechanism - III |
Link |
NOC:Corrosion Failures and Analysis |
Lecture 42 - Stress corrosion cracking: Corrosion fatigue and protection methods |
Link |
NOC:Nanomaterials and their Properties |
Lecture 1 - Nanomaterials: An Overview - Part I |
Link |
NOC:Nanomaterials and their Properties |
Lecture 2 - Nanomaterials: An Overview - Part II |
Link |
NOC:Nanomaterials and their Properties |
Lecture 3 - Nanomaterials: Hierarchial Nanostructures - I |
Link |
NOC:Nanomaterials and their Properties |
Lecture 4 - Nanomaterials: Hierarchial Nanostructures - II |
Link |
NOC:Nanomaterials and their Properties |
Lecture 5 - Nanomaterials: Surfaces and Interfaces - I |
Link |
NOC:Nanomaterials and their Properties |
Lecture 6 - Nanomaterials: Surfaces and Interfaces - I (Continued...) |
Link |
NOC:Nanomaterials and their Properties |
Lecture 7 - Nanomaterials: Surfaces - I |
Link |
NOC:Nanomaterials and their Properties |
Lecture 8 - Nanomaterials: Magic Numbers |
Link |
NOC:Nanomaterials and their Properties |
Lecture 9 - Thermodynamics of Nanomaterials |
Link |
NOC:Nanomaterials and their Properties |
Lecture 10 - Surfaces and Interfaces - II |
Link |
NOC:Nanomaterials and their Properties |
Lecture 11 - Thermodynamics of Nanomaterials |
Link |
NOC:Nanomaterials and their Properties |
Lecture 12 - Surfaces and Interfaces - II (Continued...) |
Link |
NOC:Nanomaterials and their Properties |
Lecture 13 - Nanophase Diagrams |
Link |
NOC:Nanomaterials and their Properties |
Lecture 14 - Effect of Size on Phase Diagrams |
Link |
NOC:Nanomaterials and their Properties |
Lecture 15 - Synthesis of Nanomaterials |
Link |
NOC:Nanomaterials and their Properties |
Lecture 16 - Synthesis Routes of Nanomaterials - II |
Link |
NOC:Nanomaterials and their Properties |
Lecture 17 - Mechanical Properties of Nanomaterials - I |
Link |
NOC:Nanomaterials and their Properties |
Lecture 18 - Mechanical Properties of Nanomaterials - II |
Link |
NOC:Nanomaterials and their Properties |
Lecture 19 - Thermal Properties of Nanomaterials - I |
Link |
NOC:Nanomaterials and their Properties |
Lecture 20 - Thermal Properties of Nanomaterials - II |
Link |
NOC:Nanomaterials and their Properties |
Lecture 21 - Thermal Properties of Nanomaterials - III |
Link |
NOC:Nanomaterials and their Properties |
Lecture 22 - Thermal Properties of Nanomaterials - III (Continued...) |
Link |
NOC:Nanomaterials and their Properties |
Lecture 23 - Electrical Property of Nanomaterials |
Link |
NOC:Nanomaterials and their Properties |
Lecture 24 - Magnetic Properties of Nanomaterials - I |
Link |
NOC:Nanomaterials and their Properties |
Lecture 25 - Magnetic Properties of Nanomaterials - II |
Link |
NOC:Nanomaterials and their Properties |
Lecture 26 - Optical Properties of Nanomaterials - I |
Link |
NOC:Nanomaterials and their Properties |
Lecture 27 - Optical Properties of Nanomaterials - II |
Link |
NOC:Nanomaterials and their Properties |
Lecture 28 - Special Cases: Carbon-Based Nanomaterials |
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NOC:Nanomaterials and their Properties |
Lecture 29 - Special Cases: Polymer-Based Nanomaterials |
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NOC:Mechanical Behaviour of Materials - Part I |
Lecture 1 - Introduction |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 2 - Origin of Elasticity |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 3 - Stress as a Tensor |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 4 - Principal Stress |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 5 - Mohr's Circle |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 6 - Stress-Strain Relation |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 7 - Viscoelasticity |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 8 - Tensile Testing |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 9 - Universal Testing Machine |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 10 - Flow Stress |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 11 - Yield Criterions: Basics |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 12 - Yield Criterions: Tresca, Von-Mises |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 13 - Effective Stress_Effective Strain |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 14 - Plastic Instability |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 15 - Effect of Strain-rate and Temperature |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 16 - Dislocations: Discovery |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 17 - Dislocations: Fundamentals |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 18 - Dislocations: Characteristics |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 19 - Stress and Strain Fields of Dislocations |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 20 - Energy of Dislocations |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 21 - Dislocation Motion Glide |
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NOC:Mechanical Behaviour of Materials - Part I |
Lecture 22 - Cross-slip of Dislocations |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 23 - Climb motion of Dislocations |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 24 - Steps in Dislocations |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 25 - Slip Systems |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 26 - More on Slip Systems |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 27 - Critical Resolved Shear Stress |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 28 - Dislocation Interactions |
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NOC:Mechanical Behaviour of Materials - Part I |
Lecture 29 - Image Forces |
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NOC:Mechanical Behaviour of Materials - Part I |
Lecture 30 - Partial Dislocations |
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NOC:Mechanical Behaviour of Materials - Part I |
Lecture 31 - Strengthening Mechanisms |
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NOC:Mechanical Behaviour of Materials - Part I |
Lecture 32 - Precipitation Strengthening: Basic Criteria |
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NOC:Mechanical Behaviour of Materials - Part I |
Lecture 33 - Precipitation Strengthening: Precipitate Characteristics |
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NOC:Mechanical Behaviour of Materials - Part I |
Lecture 34 - Precipitation Strengthening: Mechanisms |
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NOC:Mechanical Behaviour of Materials - Part I |
Lecture 35 - Effect of Temperature: Dispersion Strengthening |
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NOC:Mechanical Behaviour of Materials - Part I |
Lecture 36 - Solid Solution Strengthening: Basics |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 37 - Solid Solution Strengthening: Interaction with Dislocations |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 38 - Solid Solution Strengthening: Yield Point Phenomenon |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 39 - Grain Boundary Strengthening |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 40 - Strain Hardening: Single Xtal and Poly Crystal Deformation, Tylor Hardening |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 41 - Strain Hardening: Dislocation Multiplication, Intersection and Locks |
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NOC:Mechanical Behaviour of Materials - Part I |
Lecture 42 - Summary of Strengthening Mechanisms |
Link |
NOC:Mechanical Behaviour of Materials - Part I |
Lecture 43 - Hardness Testing |
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NOC:Mechanical Behaviour of Materials - Part I |
Lecture 44 - Impact Testing |
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NOC:Mechanical Behaviour of Materials - Part I |
Lecture 45 - Mechanical Behaviour of Composites |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 1 - Theoretical Strength |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 2 - Stress Based Approach (Inglis) |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 3 - Energy Based Approach (Griifith) |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 4 - Mode of Deformation and Stress Distribution Ahead of Crack Tip |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 5 - Stress Triaxiality |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 6 - Plastic Zone Size |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 7 - Plastic Zone Size and Shape (Continued...) |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 8 - Stress Intensity Factors for Different Geometries |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 9 - Fracture Toughness |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 10 - Fracture Toughness Measurement |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 11 - Fracture Mechanisms |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 12 - Ductile Fracture Mechanisms |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 13 - Ductile Fracture Mechanisms_Tunneling |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 14 - Cleavage Fracture |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 15 - Fracture Mechanisms (Images) |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 16 - Fatigue (Stress Parameters) |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 17 - Fatigue Testing (S-N curve) |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 18 - Low and High Cycle Fatigue |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 19 - Fatigue Crack Initiation |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 20 - Fatigue Crack Propagation |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 21 - Fatigue Striations, Beachmarks and Images |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 22 - Deformation of Composites |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 23 - Deformation of Composites (Continued...) |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 24 - Toughening of Ceramics |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 25 - Fracture in Polymers |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 26 - Creep Fundamentals |
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NOC:Mechanical Behaviour of Materials - Part II |
Lecture 27 - Creep Models |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 1 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 2 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 3 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 4 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 5 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 6 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 7 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 8 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 9 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 10 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 11 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 12 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 13 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 14 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 15 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 16 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 17 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 18 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 19 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 20 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 21 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 22 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 23 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 24 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 25 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 26 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 27 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 28 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 29 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 30 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 31 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 32 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 33 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 34 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 35 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 36 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 37 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 38 |
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NOC:Electronic Properties of the Materials: Computational Approach |
Lecture 39 |
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NOC:Corrosion Protection Methods |
Lecture 1 |
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NOC:Corrosion Protection Methods |
Lecture 2 |
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NOC:Corrosion Protection Methods |
Lecture 3 |
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NOC:Corrosion Protection Methods |
Lecture 4 |
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NOC:Corrosion Protection Methods |
Lecture 5 |
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NOC:Corrosion Protection Methods |
Lecture 6 |
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NOC:Corrosion Protection Methods |
Lecture 7 |
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NOC:Corrosion Protection Methods |
Lecture 8 |
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NOC:Corrosion Protection Methods |
Lecture 9 |
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NOC:Corrosion Protection Methods |
Lecture 10 |
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NOC:Corrosion Protection Methods |
Lecture 11 |
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NOC:Corrosion Protection Methods |
Lecture 12 |
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NOC:Corrosion Protection Methods |
Lecture 13 |
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NOC:Corrosion Protection Methods |
Lecture 14 |
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NOC:Corrosion Protection Methods |
Lecture 15 |
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NOC:Corrosion Protection Methods |
Lecture 16 |
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NOC:Corrosion Protection Methods |
Lecture 17 |
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NOC:Corrosion Protection Methods |
Lecture 18 |
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NOC:Corrosion Protection Methods |
Lecture 19 |
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NOC:Corrosion Protection Methods |
Lecture 20 |
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NOC:Corrosion Protection Methods |
Lecture 21 |
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NOC:Corrosion Protection Methods |
Lecture 22 |
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NOC:Corrosion Protection Methods |
Lecture 23 |
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NOC:Corrosion Protection Methods |
Lecture 24 |
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NOC:Corrosion Protection Methods |
Lecture 25 |
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NOC:Corrosion Protection Methods |
Lecture 26 |
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NOC:Corrosion Protection Methods |
Lecture 27 |
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NOC:Corrosion Protection Methods |
Lecture 28 |
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NOC:Corrosion Protection Methods |
Lecture 29 |
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NOC:Corrosion Protection Methods |
Lecture 30 |
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NOC:Corrosion Protection Methods |
Lecture 31 |
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NOC:Corrosion Protection Methods |
Lecture 32 |
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NOC:Corrosion Protection Methods |
Lecture 33 |
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NOC:Corrosion Protection Methods |
Lecture 34 |
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NOC:Corrosion Protection Methods |
Lecture 35 |
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NOC:Corrosion Protection Methods |
Lecture 36 |
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NOC:Corrosion Protection Methods |
Lecture 37 |
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NOC:Corrosion Protection Methods |
Lecture 38 |
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NOC:Corrosion Protection Methods |
Lecture 39 |
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NOC:Corrosion Protection Methods |
Lecture 40 (Part 1) |
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NOC:Corrosion Protection Methods |
Lecture 41 (Part 2) |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 1 - Introduction to phase diagram |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 2 - Definition of important terms |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 3 - Understanding of thermodynamic equilibrium - I |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 4 - Understanding of thermodynamic equilibrium - II |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 5 - Understanding of thermodynamic equilibrium - III |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 6 - Understanding of thermodynamic equilibrium - IV |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 7 - Significance of chemical potential in phase equilibrium |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 8 - Phase equilibrium in H2O system - Part 1 |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 9 - Phase equilibrium in H2O system - Part 2 |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 10 - Part A - Phase equilibrium in H2O system - Part 3 |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 11 - Part B - Phase equilibrium in H2O system - Part 4 |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 12 - Practical importance of water phase diagram |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 13 - Solution thermodynamics - Part I |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 14 - Solution thermodynamics - Part II |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 15 - Solution thermodynamics - Part III |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 16 - Solution thermodynamics - Part IV |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 17 - Solution thermodynamics - Part V |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 18 - Solution thermodynamics - part VI |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 19 - solution thermodynamics - part VII |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 20 - Graphical understanding of free energy and composition of condensed solutions - Part 1 |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 21 - Graphical understanding of free energy and composition of condensed solutions - Part 2 |
Link |
NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 22 - Free energy composition plots and evolution of phase diagram for condensed solution - I |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 23 - Free energy composition plots and evolution of phase diagram for condensed solution - II |
Link |
NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 24 - Free energy composition plots and evolution of phase diagram for condensed solution - III |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 25 - Free energy composition plots and evolution of phase diagram for condensed solution - IV |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 26 - Free energy composition plots and evolution of phase diagram for condensed solution - V |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 27 - Isomorphous phase diagram, tie line, and lever rule |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 28 - Calculation of phase diagram - Part I |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 29 - Calculation of phase diagram - Part II |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 30 - Introduction to the non-ideal solutions |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 31 - The quasi-chemical approach |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 32 - Quasi-chemical approach to obtain change in enthalpy in regular solutions |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 33 - Effect of enthalpy change in change in Gibbs free energy - Part 1 |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 34 - Effect of enthalpy change in change in Gibbs free energy - Part 2 |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 35 - Effect of enthalpy change in change in Gibbs free energy and final Gibbs free energy - I |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 36 - Effect of enthalpy change in change in Gibbs free energy and final Gibbs free energy - II |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 37 - Effect of enthalpy change in change in Gibbs free energy and final Gibbs free energy - III |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 38 - Free energies of liquid and solid solutions |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 39 - Phase diagram on the basis of enthalpy of mixing of solid and liquid solutions - I |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 40 - Phase diagram on the basis of enthalpy of mixing of solid and liquid solutions - II |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 41 - Phase diagram on the basis of enthalpy of mixing of solid and liquid solutions - III |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 42 - Eutectic, peritectic, and eutectoid phase diagrams - Part 1 |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 43 - Eutectic, peritectic, and eutectoid phase diagrams - Part 2 |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 44 - Phase rule - Part I |
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NOC:Phase Diagrams in Single Component and Binary Systems in Bengali |
Lecture 45 - Derivation of phase rule |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 1 - Introduction to the course - I |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 2 - Introduction to the course - II |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 3 - Introduction to AI - I |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 4 - Introduction to AI - II |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 5 - Basics of Materials Science - I |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 6 - Basics of Materials Science - II |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 7 - Basics of Materials Science - III |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 8 - Basics of Materials Science - IV |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 9 - Part 1 - Basics of Materials Science - V |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 10 - Part 2 - Basics of Materials Science - VI |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 11 - Part 1 - Basics of Materials Science - VII |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 12 - Part 2 - Basics of Materials Science - VIII |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 13 - Part 1 - Basics of Materials Science - IX |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 14 - Part 2 - Basics of Materials Science - X |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 15 - Part 1 - Basics of Materials Science - XI |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 16 - Part 2 - Basics of Materials Science - XII |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 17 - Part 1 - Basics of Materials Science - XIII |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 18 - Part 2 - Basics of Materials Science - XIV |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 19 - Part 1 - Basics of Materials Science - XV |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 20 - Part 2 - Basics of Materials Science - XVI |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 21 - Part 1 - Basics of Materials Science - XVII |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 22 - Part 2 - Basics of Materials Science - XVIII |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 23 - Part 1 - Basics of Materials Science - XIX |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 24 - Part 2 - Basics of Materials Science - X |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 25 - Part 1 - Basics of Materials Science - XI |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 26 - Part 2 - Basics of Materials Science - XII |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 27 - Part 1 - Basics of Materials Science - XIII |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 28 - Part 2 - Basics of Materials Science - XIV |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 29 - Part 1 - Machine Learning Algorithms - I |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 30 - Part 2 - Machine Learning Algorithms - II |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 31 - Part 1 - Machine Learning Algorithms - III |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 32 - Part 2 - Machine Learning Algorithms - IV |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 33 - Part 1 - Machine Learning Algorithms - V |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 34 - Part 2 - Machine Learning Algorithms - VI |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 35 - Part 1 - Machine Learning Algorithms - VII |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 36 - Part 2 - Machine Learning Algorithms - VIII |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 37 - Part 1 - Machine Learning Algorithms - IX |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 38 - Part 2 - Machine Learning Algorithms - X |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 39 - Part 1 - Machine Learning Algorithms - XI |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 40 - Part 2 - Machine Learning Algorithms - XII |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 41 - Part 1 - Machine Learning Algorithms - XIII |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 42 - Part 2 - Machine Learning Algorithms - XIV |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 43 - Part 1 - Machine Learning Algorithms - XV |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 44 - Part 2 - Machine Learning Algorithms - XVI |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 45 - Part 1 - Machine Learning Algorithms - XVII |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 46 - Part 2 - Machine Learning Algorithms - XVIII |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 47 - Part 1 - Deep Learning Methods - I |
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NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 48 - Part 2 - Deep Learning Methods - II |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 49 - Part 1 - Deep Learning Methods - III |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 50 - Part 2 - Deep Learning Methods - IV |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 51 - Part 1 - Deep Learning Methods - V |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 52 - Part 2 - Deep Learning Methods - VI |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 53 - Part 1 - Deep Learning Methods - VII |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 54 - Part 2 - Deep Learning Methods - VIII |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 55 - Part 1 - Materials Design at Different Length Scale - I |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 56 - Part 2 - Materials Design at Different Length Scale - II |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 57 - Part 1 - Materials Design at Different Length Scale - III |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 58 - Part 2 - Materials Design at Different Length Scale - IV |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 59 - Part 1 - Materials Design at Different Length Scale - V |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 60 - Part 2 - Materials Design at Different Length Scale - VI |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 61 - Part 1 - Molecular Dynamic Simulation |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 62 - Part 2 - Molecular Dynamic Simulation |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 63 - Part 1 - Density Function Theory (DFT) |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 64 - Part 2 - Density Function Theory (DFT) |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 65 - Part 1 - Advanced Deep Learning - I |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 66 - Part 2 - Advanced Deep Learning - II |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 67 - Part 1 - Advanced Deep Learning - III |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 68 - Part 2 - Advanced Deep Learning - IV |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 69 - Part 1 - Data Preprocessing and Error Analyses - I |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 70 - Part 2 - Data Preprocessing and Error Analyses - II |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 71 - Part 1 - Material Informatics - I |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 72 - Part 2 - Material Informatics - II |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 73 - Part 1 - Materials Knowledge and Materials Data Science, Material Informatics - I |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 74 - Part 2 - Materials Knowledge and Materials Data Science, Material Informatics - II |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 75 - Part 1 - Materials knowledge and materials data science, Material informatics - III |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 76 - Part 2 - Materials Knowledge and Materials Data Science, Material Informatics - IV |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 77 - Part 1 - Materials Knowledge and Materials Data Science, Material Informatics - V |
Link |
NOC:Artificial Intelligence and Machine Learning in Materials Engineering |
Lecture 78 - Part 2 - Conclusion |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 1 - Introduction to Materials Recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 2 - Classification of Metallurgical and Electronic Wastes - Part 1 |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 3 - Classification of Metallurgical and Electronic Wastes - Part 2 |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 4 - Importance of Unit Operations - Part 1 |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 5 - Importance of Unit Operations - Part 2 |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 6 - Pretreatments in Recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 7 - Pyrometallurgy |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 8 - Electrometallurgy |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 9 - Hydrometallurgy |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 10 - Refining |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 11 - Aluminium dross recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 12 - Spent pot lining recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 13 - Red mud recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 14 - Aluminium scrap recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 15 - Salt slag recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 16 - Copper Smelter Slag recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 17 - Copper Smelter Slag and Raffinate recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 18 - Raffinate recycling (Continued...) |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 19 - Spent Electrolyte recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 20 - Copper scrap recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 21 - Zinc ash recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 22 - Zinc ash and zinc dross recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 23 - Zinc dross recycling (Continued...) |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 24 - Zinc dust recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 25 - Zinc dust and zinc scrap recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 26 - Ironmaking slag recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 27 - Ironmaking and steelmaking slag recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 28 - Steelmaking slag recycling (Continued...) |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 29 - Steel scrap recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 30 - Wastewater recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 31 - Recycling of E-Waste |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 32 - Waste Printed Circuit Boards (WPCBs) recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 33 - WPCBs recycling: Delamination |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 34 - WPCBs recycling: Pyrometallurgical processes |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 35 - WPCBs recycling: Hydrometallurgical processes |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 36 - Battery Recycling: Ni-based batteries |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 37 - Battery Recycling: Lead-acid batteries |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 38 - Battery Recycling: Zinc-based batteries |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 39 - Battery Recycling: Li-ion batteries |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 40 - Environmental Impacts of Recycling |
Link |
NOC:Metallurgical and Electronic Waste Recycling |
Lecture 41 - Conclusion |
Link |
Advanced ceramics for strategic applications |
Lecture 1 - Introduction |
Link |
Advanced ceramics for strategic applications |
Lecture 2 - Introduction (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 3 - Crystal Structure |
Link |
Advanced ceramics for strategic applications |
Lecture 4 - Crystal Structure (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 5 - Crystal Structure (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 6 - Crystal Structure (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 7 - Defects in crystalline solids |
Link |
Advanced ceramics for strategic applications |
Lecture 8 - Defects in crystalline solids (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 9 - Dislocation |
Link |
Advanced ceramics for strategic applications |
Lecture 10 - Two and Three Dimensional Defects |
Link |
Advanced ceramics for strategic applications |
Lecture 11 - Electrical Conduction in ceramics |
Link |
Advanced ceramics for strategic applications |
Lecture 12 - Electrical Conduction in Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 13 - Electrical Conduction in Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 14 - Electrical Conduction in Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 15 - Electrical Conduction in Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 16 - Electrical Conduction in Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 17 - Electrical Phenomenon in Insulators |
Link |
Advanced ceramics for strategic applications |
Lecture 18 - Electrical Phenomenon in Insulators (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 19 - Ferroelectric , Piezoelectric and Pyroelectric Ceramics |
Link |
Advanced ceramics for strategic applications |
Lecture 20 - Ferroelectric , Piezoelectric and Pyroelectric Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 21 - Ferroelectric , Piezoelectric and Pyroelectric Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 22 - Ferroelectric , Piezoelectric and Pyroelectric Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 23 - Relaxor Ferroelectric |
Link |
Advanced ceramics for strategic applications |
Lecture 24 - Superconductivity |
Link |
Advanced ceramics for strategic applications |
Lecture 25 - Superconductivity (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 26 - Ceramic Gas Sensor |
Link |
Advanced ceramics for strategic applications |
Lecture 27 - Ceramic Gas Sensor (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 28 - Solid Oxide Fuel Cell |
Link |
Advanced ceramics for strategic applications |
Lecture 29 - Solid Oxide Fuel Cell (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 30 - Solid Oxide Fuel Cell (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 31 - Hydrogen Generation through MIEC Reactor |
Link |
Advanced ceramics for strategic applications |
Lecture 32 - Lithium Ion Battery |
Link |
Advanced ceramics for strategic applications |
Lecture 33 - Lithium Ion Battery (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 34 - Magnetic Ceramics |
Link |
Advanced ceramics for strategic applications |
Lecture 35 - Magnetic Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 36 - Magnetic Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 37 - Magnetic Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 38 - Sintering of Ceramics |
Link |
Advanced ceramics for strategic applications |
Lecture 39 - Sintering of Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 40 - Sintering of Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 41 - Sintering of Ceramics (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 42 - Mechanical Properties of Ceramic Materials |
Link |
Advanced ceramics for strategic applications |
Lecture 43 - Mechanical Properties of Ceramic Materials (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 44 - Mechanical Properties of Ceramic Materials (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 45 - Mechanical Properties of Ceramic Materials (Continued...) |
Link |
Advanced ceramics for strategic applications |
Lecture 46 - Structural Ceramics Materials |
Link |
Advanced ceramics for strategic applications |
Lecture 47 - Bioceramics |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 1 - Brief History of Non-ferrous Metal |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 2 - Brief History of Non-ferrous Metal (Continued...) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 3 - Sources of Non-ferrous Metal |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 4 - Mineral Benefication Techniques |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 5 - General Methods of Metal Extraction |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 6 - Principles of Carbon Reduction |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 7 - Principles of Hydrometalling |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 8 - Principles of Electrometallurgy |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 9 - Electrometallurgy (Continued...) and Temkin Model for Fused Salts |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 10 - Refining of Metals - Chemical Methods |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 11 - Refining of Metals - Physical Methods |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 12 - Concluding part of Module - 4 |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 13 - Concluding part of Module - 4 (Continued...) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 14 - Module - 5 Extraction of Metals from Oxides, Extraction of Magnesium |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 15 - Extraction Aluminium |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 16 - Extraction Aluminium (Continued...1) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 17 - Extraction Aluminium (Continued...2) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 18 - Extraction Aluminium (Continued...3) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 19 - Extraction of Tin |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 20 - Extraction of Ferro Alloys |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 21 - Module - 6 Extraction of Metals from Sulphides Extraction of Copper |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 22 - Extraction of Copper (Continued...) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 23 - Hydrometallurgy of Copper |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 24 - Extraction of Lead |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 25 - Extraction of Zinc-Imperial Smelting Process |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 26 - Module - 7 Extraction of metals from halides, Extraction of reactor metals |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 27 - Extraction of reactor metals (Continued...1) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 28 - Extraction of reactor metals (Continued...2) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 29 - Extraction of Titanium |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 30 - Extraction of Precious Metals |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 31 - Production of Secondary Metals and Treatment of Wastes |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 32 - Energy and Environment Related Issues in Nonferrous Metals Production |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 33 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...1) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 34 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...2) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 35 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...3) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 36 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...4) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 37 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...5) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 38 - Energy and Environment Related Issues in Nonferrous Metals Production (Continued...6) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 39 - Nonferrous Metals in India - Unleashing its true potential |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 40 - Nonferrous Metals in India - Unleashing its true potential (Continued...) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 41 - Review and Summary |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 42 - Review and Summary (Continued...1) |
Link |
Non-ferrous Extractive Metallurgy |
Lecture 43 - Review and Summary (Continued...2) |
Link |
Principles of Physical Metallurgy |
Lecture 1 - Introduction |
Link |
Principles of Physical Metallurgy |
Lecture 2 - Atomic Bond and Crystal Structure |
Link |
Principles of Physical Metallurgy |
Lecture 3 - Atomic Bond and Crystal Structure (Continued...1) |
Link |
Principles of Physical Metallurgy |
Lecture 4 - Atomic Bond and Crystal Structure (Continued...2) |
Link |
Principles of Physical Metallurgy |
Lecture 5 - Experimental Tools & Techniques |
Link |
Principles of Physical Metallurgy |
Lecture 6 - Experimental Tools & Techniques (Continued...) |
Link |
Principles of Physical Metallurgy |
Lecture 7 - Solidification of Pure Metal |
Link |
Principles of Physical Metallurgy |
Lecture 8 - Plastic Deformation of Pure Metal |
Link |
Principles of Physical Metallurgy |
Lecture 9 - Plastic Deformation of Pure Metal (Continued...) |
Link |
Principles of Physical Metallurgy |
Lecture 10 - Crystal Defects in Metals |
Link |
Principles of Physical Metallurgy |
Lecture 11 - Crystal Defects in Metals (Continued...1) |
Link |
Principles of Physical Metallurgy |
Lecture 12 - Crystal Defects in Metals (Continued...2) |
Link |
Principles of Physical Metallurgy |
Lecture 13 - Crystal Defects in Metals (Continued...3) |
Link |
Principles of Physical Metallurgy |
Lecture 14 - Crystal Defects in Metals (Continued...4) |
Link |
Principles of Physical Metallurgy |
Lecture 15 - Diffusion in Solids |
Link |
Principles of Physical Metallurgy |
Lecture 16 - Diffusion in Solids (Continued...) |
Link |
Principles of Physical Metallurgy |
Lecture 17 - Numerical Examples in Diffusion |
Link |
Principles of Physical Metallurgy |
Lecture 18 - Solidification of Binary Alloys |
Link |
Principles of Physical Metallurgy |
Lecture 19 - Solidification of Binary Alloys (Continued...1) |
Link |
Principles of Physical Metallurgy |
Lecture 20 - Solidification of Binary Alloys (Continued...2) |
Link |
Principles of Physical Metallurgy |
Lecture 21 - Solidification of Binary Alloys (Continued...3) |
Link |
Principles of Physical Metallurgy |
Lecture 22 - Solidification of Binary Alloys (Continued...4) |
Link |
Principles of Physical Metallurgy |
Lecture 23 - Iron-Carbon Phase Diagram |
Link |
Principles of Physical Metallurgy |
Lecture 24 - Iron-Carbon Phase Diagram (Continued...) |
Link |
Principles of Physical Metallurgy |
Lecture 25 - Ternary Phase Diagram |
Link |
Principles of Physical Metallurgy |
Lecture 26 - Common Binary Alloys |
Link |
Principles of Physical Metallurgy |
Lecture 27 - Metal Working : Deformation Processing |
Link |
Principles of Physical Metallurgy |
Lecture 28 - Metal Working : Deformation Processing (Continued...) |
Link |
Principles of Physical Metallurgy |
Lecture 29 - Precipitation for Solid Solution |
Link |
Principles of Physical Metallurgy |
Lecture 30 - Precipitation for Solid Solution (Continued...) |
Link |
Principles of Physical Metallurgy |
Lecture 31 - Heat Treatment of Steel |
Link |
Principles of Physical Metallurgy |
Lecture 32 - Heat Treatment of Steel (Continued...1) |
Link |
Principles of Physical Metallurgy |
Lecture 33 - Heat Treatment of Steel (Continued...2) |
Link |
Principles of Physical Metallurgy |
Lecture 34 - Heat Treatment of Steel (Continued...3) |
Link |
Principles of Physical Metallurgy |
Lecture 35 - Heat Treatment of Steel (Continued...4) |
Link |
Principles of Physical Metallurgy |
Lecture 36 - Heat Treatment of Steel (Continued...5) |
Link |
Principles of Physical Metallurgy |
Lecture 37 - Surface Hardening |
Link |
Principles of Physical Metallurgy |
Lecture 38 - Structural Steel |
Link |
Principles of Physical Metallurgy |
Lecture 39 - Structural Steel (Continued...) |
Link |
Principles of Physical Metallurgy |
Lecture 40 - Ultra High Strength Steel |
Link |
Principles of Physical Metallurgy |
Lecture 41 - Preferred Orientation: Application |
Link |
Principles of Physical Metallurgy |
Lecture 42 - Metal Joining |
Link |
Processing of Semiconducting Materials |
Lecture 1 - Introduction to Electronics Materials |
Link |
Processing of Semiconducting Materials |
Lecture 2 - Electrical Conductivity of Materials |
Link |
Processing of Semiconducting Materials |
Lecture 3 - Direct and Indirect Band Semiconductors |
Link |
Processing of Semiconducting Materials |
Lecture 4 - Doping in Semiconductors |
Link |
Processing of Semiconducting Materials |
Lecture 5 - Semiconductor Statistics |
Link |
Processing of Semiconducting Materials |
Lecture 6 - Importance of Doping |
Link |
Processing of Semiconducting Materials |
Lecture 7 - Diffusion and Ion Implantation - I |
Link |
Processing of Semiconducting Materials |
Lecture 8 - Diffusion and Ion Implantation - II |
Link |
Processing of Semiconducting Materials |
Lecture 9 - Diffusion and Ion Implantation - III |
Link |
Processing of Semiconducting Materials |
Lecture 10 - Elemental Semiconductors |
Link |
Processing of Semiconducting Materials |
Lecture 11 - Compound Semiconductors |
Link |
Processing of Semiconducting Materials |
Lecture 12 - Bulk Crystal Growth - I |
Link |
Processing of Semiconducting Materials |
Lecture 13 - Bulk Crystal Growth - II |
Link |
Processing of Semiconducting Materials |
Lecture 14 - Ga As Crystal Growth |
Link |
Processing of Semiconducting Materials |
Lecture 15 - Defects in Crystals - I |
Link |
Processing of Semiconducting Materials |
Lecture 16 - Defects in Crystals - II |
Link |
Processing of Semiconducting Materials |
Lecture 17 - Band Gap Engineering - I |
Link |
Processing of Semiconducting Materials |
Lecture 18 - Band Gap Engineering - II |
Link |
Processing of Semiconducting Materials |
Lecture 19 - Chemical Vapour Deposition - I |
Link |
Processing of Semiconducting Materials |
Lecture 20 - Chemical Vapour Deposition - II |
Link |
Processing of Semiconducting Materials |
Lecture 21 - MOCVD |
Link |
Processing of Semiconducting Materials |
Lecture 22 - Molecular Beam Epitaxy - I |
Link |
Processing of Semiconducting Materials |
Lecture 23 - Molecular Beam Epitaxy - II |
Link |
Processing of Semiconducting Materials |
Lecture 24 - p - n Junction |
Link |
Processing of Semiconducting Materials |
Lecture 25 - Carrier Transport in P - N Junction |
Link |
Processing of Semiconducting Materials |
Lecture 26 - Characterization - I |
Link |
Processing of Semiconducting Materials |
Lecture 27 - Characterization - II |
Link |
Processing of Semiconducting Materials |
Lecture 28 - Optical Characterization - I |
Link |
Processing of Semiconducting Materials |
Lecture 29 - Metal-Semiconductor Contact - I |
Link |
Processing of Semiconducting Materials |
Lecture 30 - Metal-Semiconductor Contact - II |
Link |
Processing of Semiconducting Materials |
Lecture 31 - Applications of Metal-Semiconductor Contact |
Link |
Processing of Semiconducting Materials |
Lecture 32 - Oxidation - I |
Link |
Processing of Semiconducting Materials |
Lecture 33 - Oxidation - II |
Link |
Processing of Semiconducting Materials |
Lecture 34 - Different Types of Semiconductor - I |
Link |
Processing of Semiconducting Materials |
Lecture 35 - Oxidation - I |
Link |
Processing of Semiconducting Materials |
Lecture 36 - Oxidation - II |
Link |
Processing of Semiconducting Materials |
Lecture 37 - Dielectric Films |
Link |
Processing of Semiconducting Materials |
Lecture 38 - Low - K and High - K materials |
Link |
Processing of Semiconducting Materials |
Lecture 39 - Metallization |
Link |
Processing of Semiconducting Materials |
Lecture 40 - Materials for Photovoltaics |
Link |
Science and Technology of Polymers |
Lecture 1 - Basic Concepts on Polymers |
Link |
Science and Technology of Polymers |
Lecture 2 - Basic Concepts on Polymers (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 3 - Basic Concepts on Polymers (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 4 - Polymer Raw Materials |
Link |
Science and Technology of Polymers |
Lecture 5 - Principles of Polymer Synthesis |
Link |
Science and Technology of Polymers |
Lecture 6 - Principles of Polymer Synthesis (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 7 - Principles of Polymer Synthesis (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 8 - Principles of Polymer Synthesis (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 9 - Principles of Polymer Synthesis (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 10 - Principles of Polymer Synthesis (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 11 - Structure and Properties of Polymers (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 12 - Structure and Properties of Polymers (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 13 - Structure and Properties of Polymers (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 14 - Structure and Properties of Polymers (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 15 - Polymerization Techniques |
Link |
Science and Technology of Polymers |
Lecture 16 - Polymerization Techniques (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 17 - Polymerization Techniques (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 18 - Polymer Products |
Link |
Science and Technology of Polymers |
Lecture 19 - Polymer Products (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 20 - Rubber Products |
Link |
Science and Technology of Polymers |
Lecture 21 - Rubber Products (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 22 - Conducting Polymers |
Link |
Science and Technology of Polymers |
Lecture 23 - Conducting Polymers (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 24 - Liquid Crystalline Polymers |
Link |
Science and Technology of Polymers |
Lecture 25 - Stimuli Responsive Polymer and its application |
Link |
Science and Technology of Polymers |
Lecture 26 - Stimuli Responsive Polymer and its application (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 27 - Polymeric Nanomaterials and Devices (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 28 - Polymeric Nanomaterials and Devices (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 29 - Polymeric Nanomaterials and Devices (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 30 - Environmental Degradation of Polymers |
Link |
Science and Technology of Polymers |
Lecture 31 - Environmental Degradation of Polymers (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 32 - Polymer Composites |
Link |
Science and Technology of Polymers |
Lecture 33 - Polymer Composites (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 34 - Polymer Composites (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 35 - Multicomponent Polymeric Materials |
Link |
Science and Technology of Polymers |
Lecture 36 - Multicomponent Polymeric Materials (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 37 - Multicomponent Polymeric Materials (Continued...) |
Link |
Science and Technology of Polymers |
Lecture 38 - Viscoelasticity |
Link |
Science and Technology of Polymers |
Lecture 39 - Engineering and Speciality Polymers |
Link |
Science and Technology of Polymers |
Lecture 40 - Engineering and Speciality Polymers (Continued...) |
Link |
Advanced Materials and Processes |
Lecture 1 - Structure of Materials - Part I |
Link |
Advanced Materials and Processes |
Lecture 2 - Structure of Materials - Part II |
Link |
Advanced Materials and Processes |
Lecture 3 - Nano Crystalline Materials - Part I |
Link |
Advanced Materials and Processes |
Lecture 4 - Nano Crystalline Materials - Part II |
Link |
Advanced Materials and Processes |
Lecture 5 - Nano Crystalline Materials - Part III |
Link |
Advanced Materials and Processes |
Lecture 6 - Nano Crystalline Materials - Part IV |
Link |
Advanced Materials and Processes |
Lecture 7 - Amorphous Materials - Part I |
Link |
Advanced Materials and Processes |
Lecture 8 - Amorphous Materials - Part II |
Link |
Advanced Materials and Processes |
Lecture 9 - Amorphous Materials - Part III |
Link |
Advanced Materials and Processes |
Lecture 10 - Amorphous Materials - Part IV |
Link |
Advanced Materials and Processes |
Lecture 11 - Amorphous Materials - Part V |
Link |
Advanced Materials and Processes |
Lecture 12 - Quasicrystals - Part I |
Link |
Advanced Materials and Processes |
Lecture 13 - Quasicrystals - Part II |
Link |
Advanced Materials and Processes |
Lecture 14 - Nano Quasicrystals - Part I |
Link |
Advanced Materials and Processes |
Lecture 15 - Nano Quasicrystals - Part II |
Link |
Advanced Materials and Processes |
Lecture 16 - Rapid Solidification Processing |
Link |
Advanced Materials and Processes |
Lecture 17 - Mechanical Alloying |
Link |
Advanced Materials and Processes |
Lecture 18 - Advanced AI Alloys - Part I |
Link |
Advanced Materials and Processes |
Lecture 19 - Advanced AI Alloys - Part II |
Link |
Advanced Materials and Processes |
Lecture 20 - Advanced AI Alloys - Part III |
Link |
Advanced Materials and Processes |
Lecture 21 - Advanced AI Alloys - Part IV and Ti Alloys |
Link |
Advanced Materials and Processes |
Lecture 22 - Shape Memory Alloys |
Link |
Advanced Materials and Processes |
Lecture 23 - Strengthening Mechanisms - Part I |
Link |
Advanced Materials and Processes |
Lecture 24 - Strengthening Mechanisms - Part II |
Link |
Advanced Materials and Processes |
Lecture 25 - Superalloys |
Link |
Advanced Materials and Processes |
Lecture 26 - In-Situ Composites - Part I |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 1 - Historical development of polymer science |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 2 - Molecular Weight Determination Of Polymers |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 3 - Molecular Weight Determination Of Polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 4 - Molecular Weight Determination of Polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 5 - Molecular Weight Determination of Polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 6 - Principles of step growth polymerization |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 7 - Principles of step growth polymerization (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 8 - Principles of step growth polymerization (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 9 - Principles of step growth polymerization (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 10 - Principles of step growth polymerization (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 11 - Principles of radical chain polymerization |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 12 - Principles of radical chain polymerization (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 13 - Principles of radical chain polymerization (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 14 - Principles of radical chain polymerization (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 15 - Principles of radical chain polymerization (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 16 - Principles of radical chain polymerization (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 17 - Principles of Chain Copolymerization |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 18 - Principles of Chain Copolymerization (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 19 - Principles of Chain Copolymerization (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 20 - Principles of Living Chain polymerization |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 21 - Principles of Living Chain polymerization (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 22 - Design of Chemical Reactors |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 23 - Design of Chemical Reactors (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 24 - Design of Chemical Reactors (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 25 - Design of Chemical Reactors (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 26 - Design of Chemical Reactors (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 27 - Design of Chemical Reactors (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 28 - Design of Chemical Reactors (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 29 - Design of Chemical Reactors (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 30 - Design of Chemical Reactors (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 31 - Design of Chemical Reactors (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 32 - Synthesis of industrial polymers |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 33 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 34 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 35 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 36 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 37 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 38 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 39 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 40 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 41 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 42 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 43 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 44 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 45 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 46 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Principles of Polymer Synthesis |
Lecture 47 - Synthesis of industrial polymers (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 1 - Introduction |
Link |
NOC:Advanced Materials and Processes |
Lecture 2 - Introduction (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 3 - Introduction (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 4 - Introduction (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 5 - Introduction (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 6 - Bulk Metallic Glass, Glassy and Amorphous Materials |
Link |
NOC:Advanced Materials and Processes |
Lecture 7 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 8 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 9 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 10 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 11 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 12 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 13 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 14 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 15 - Bulk Metallic Glass, Glassy and Amorphous Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 16 - Shape Memory Alloys |
Link |
NOC:Advanced Materials and Processes |
Lecture 17 - Shape Memory Alloys (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 18 - Shape Memory Alloys (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 19 - Shape Memory Alloys (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 20 - Shape Memory Alloys (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 21 - Shape Memory Alloys: Case Studies and Applications |
Link |
NOC:Advanced Materials and Processes |
Lecture 22 - Shape Memory Alloys: Case Studies and Applications (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 23 - Shape Memory Alloys: Case Studies and Applications (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 24 - Shape Memory Alloys: Case Studies and Applications (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 25 - Shape Memory Alloys: Case Studies and Applications (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 26 - Introduction of High Temperature Materials |
Link |
NOC:Advanced Materials and Processes |
Lecture 27 - Introduction of High Temperature Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 28 - Introduction of High Temperature Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 29 - Introduction of High Temperature Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 30 - Introduction of High Temperature Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 31 - Supearalloys |
Link |
NOC:Advanced Materials and Processes |
Lecture 32 - Supearalloys (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 33 - Supearalloys (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 34 - Supearalloys (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 35 - Supearalloys (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 36 - Nanomaterials: Part I |
Link |
NOC:Advanced Materials and Processes |
Lecture 37 - Nanomaterials: Part I (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 38 - Nanomaterials: Part I (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 39 - Nanomaterials: Part I (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 40 - Nanomaterials: Part I (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 41 - Nanomaterials: Part II |
Link |
NOC:Advanced Materials and Processes |
Lecture 42 - Nanomaterials: Part II (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 43 - Nanomaterials: Part II (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 44 - Nanomaterials: Part II (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 45 - Nanomaterials: Part II (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 46 - Soft and Hard Magnetic Materials |
Link |
NOC:Advanced Materials and Processes |
Lecture 47 - Soft and Hard Magnetic Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 48 - Soft and Hard Magnetic Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 49 - Soft and Hard Magnetic Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 50 - Soft and Hard Magnetic Materials (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 51 - Advanced Processes |
Link |
NOC:Advanced Materials and Processes |
Lecture 52 - Advanced Processes (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 53 - Advanced Processes (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 54 - Advanced Processes (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 55 - Advanced Processes (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 56 - Advanced Functional Alloys |
Link |
NOC:Advanced Materials and Processes |
Lecture 57 - Advanced Functional Alloys (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 58 - Advanced Functional Alloys (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 59 - Advanced Functional Alloys (Continued...) |
Link |
NOC:Advanced Materials and Processes |
Lecture 60 - Advanced Functional Alloys (Continued...) |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 1 - Structure of Solids |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 2 - Microstructure of Solids |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 3 - Defects in Crystalline Solids |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 4 - Surface and Surface Energy |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 5 - Surface Properties-due to mechanical activation |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 6 - Surface dependent physical and chemical property |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 7 - Surface Dependent Properties and Surface initiated Degradation |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 8 - Fatigue |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 9 - Wear Part - I |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 10 - Wear Part - II |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 11 - Wear Part - III |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 12 - Corrosion - I |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 13 - Corrosion - II |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 14 - Corrosion - III |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 15 - Corrosion - IV |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 16 - Corrosion - V |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 17 - Classification of Surface engineering |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 18 - Strengthening of metals |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 19 - Strengthening of Non-Metals |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 20 - Diffusive transformation in Steel |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 21 - Non-Diffusive transformation in Steel |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 22 - Shot Peening |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 23 - Shot Peening and Rolling |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 24 - Flame Hardening and Induction Hardening |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 25 - Case Carburizing |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 26 - Liquid Carburizing and Gas Carburizing |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 27 - Gas Nitriding |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 28 - Liquid and Salt Bath Nitriding |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 29 - Plasma Nitriding and Ion Implantation |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 30 - Heat treatment after carburizing and Nitriding |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 31 - Diffusion Coating Principle |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 32 - Diffusion Coating Processes |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 33 - Thick Coating by Cladding |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 34 - High Temperature Degradation |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 35 - Corrosion Prevention |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 36 - Chemical Conversion Coating |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 37 - Electroconversion Coating |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 38 - Electro and Electroless Deposition Process |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 39 - Hot Dipping - I |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 40 - Hot Dipping - II |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 41 - Thermal Spray Deposition - I |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 42 - Thermal Spray Deposition - II |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 43 - Thermal Spray Deposition - III |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 44 - Thermal Spray Deposition - IV |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 45 - Physical Vapur Deposition (PVD) |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 46 - Sputtering |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 47 - Chemical Vapor Deposition (CVD) |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 48 - Composite Coating |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 49 - Ion Implantation - I |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 50 - Ion Implantation - II |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 51 - Electron Beam Welding |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 52 - Electron Beam Surface engineering |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 53 - Laser Materials Processing: Introduction |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 54 - Laser Assisted Materials Processing:Processes |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 55 - Laser Surface Engineering:Hardening and Melting |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 56 - Laser Surface Engineering with Laser surface hardening and laser surface melting |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 57 - Laser Surface Alloying |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 58 - Laser Surface Cladding |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 59 - Surface Damage - Case Studies |
Link |
NOC:Surface Engineering for Corrosion and Wear Resistance Application |
Lecture 60 - Overview and Conclusion |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 1 - Introduction |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 2 - Various Routes of steelmaking |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 3 - The Iron Blast Furnace |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 4 - Thermodynamics of BF ironmaking |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 5 - Thermodynamics of BF Ironmaking (Continued...) |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 6 - Overall Heat and Material Balance in Blast Furnace |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 7 - RIST Diagram based on overall heat and material balance |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 8 - RIST Diagram based on heat and material balance in the Wustite Reserve Zone |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 9 - Kinetics of gas solid reaction: Iron oxide reduction - Part 1 |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 10 - Kinetics of gas solid reaction: Iron oxide reduction - Part 2 |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 11 - Aerodynamics in Blast Furnace - Part 1 |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 12 - Aerodynamics in Blast Furnace - Part 2: Channeling |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 13 - Aerodynamics in Blast Furnace - Part 3: Flooding |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 14 - Coke rate and Fuel efficiency in Blast Furnace |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 15 - oxygen enrichment of blast |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 16 - Blast Furnace and it's Raw Material |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 17 - Sintering of Iron Ore |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 18 - Pelletization of Iron Ore |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 19 - Coking Process |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 20 - Testing of Burden Material |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 21 - Burden Distribution |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 22 - Blast Furnace products and their utilization |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 23 - Blast Furnace Productivity |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 24 - Modeling of Blast Furnace |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 25 - New Potential Technologies for Blast Furnace |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 26 - History of Steelmaking |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 27 - Properties of slag |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 28 - The Reaction Equilibria Unlisted |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 29 - Dephosphorization of liquid steel |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 30 - Kinetics of slag metal reaction |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 31 - LD steelmaking: Basics, process steps, emulsion formation and stabilization |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 32 - LD Steel making: Oxygen lance and jet action and decarburization |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 33 - Evolution of impurities in steel and slag constituents during LD processing |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 34 - Hybrid Processes |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 35 - Electric steel making |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 36 - Secondary Steel making: Introduction and de-oxidation |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 37 - Secondary Steel making: Introduction and de-oxidation (Continued...) |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 38 - Secondary Steel making: Vacuum Techniques for refining steel |
Link |
NOC:Ironmaking and Steelmaking |
Lecture 39 - Homogenization and Gas stirred ladle |
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NOC:Ironmaking and Steelmaking |
Lecture 40 - Ladle de-sulphurization, alloying, stainless steel making |
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NOC:Ironmaking and Steelmaking |
Lecture 41 - Inclusion and its control |
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NOC:Ironmaking and Steelmaking |
Lecture 42 - Injection Metallurgy: Submerged injection of calcium powder |
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NOC:Ironmaking and Steelmaking |
Lecture 43 - Cored wire injection-Modeling, melting sequence, effect of operating parameters |
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NOC:Ironmaking and Steelmaking |
Lecture 44 - IM: Cored wire injection: Industrial implications |
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NOC:Ironmaking and Steelmaking |
Lecture 45 - IM: Tundish metallurgy and design |
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NOC:Ironmaking and Steelmaking |
Lecture 46 - Casting fundamentals- Heat Transfer |
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NOC:Ironmaking and Steelmaking |
Lecture 47 - Casting fundamentals- segregation |
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NOC:Ironmaking and Steelmaking |
Lecture 48 - Morphology of solidification structure and Ingot casting |
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NOC:Ironmaking and Steelmaking |
Lecture 49 - Continuous casting |
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NOC:Ironmaking and Steelmaking |
Lecture 50 - Downstream processing and near net shape casting |
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NOC:Ironmaking and Steelmaking |
Lecture 51 - Introduction to Direct Reduction (DR) and smelting Reduction (SR) Processes |
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NOC:Ironmaking and Steelmaking |
Lecture 52 - Introduction to Direct Reduction (DR) and smelting Reduction (SR) Processes (Continued...) |
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NOC:Ironmaking and Steelmaking |
Lecture 53 - Coal Based DR Processes |
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NOC:Ironmaking and Steelmaking |
Lecture 54 - Coal Based DR Processes (Continued...) |
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NOC:Ironmaking and Steelmaking |
Lecture 55 - Gas based DR Processes |
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NOC:Ironmaking and Steelmaking |
Lecture 56 - Gas based DR Processes (Continued...) |
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NOC:Ironmaking and Steelmaking |
Lecture 57 - Smelting Reduction (SR) Processes |
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NOC:Ironmaking and Steelmaking |
Lecture 58 - Smelting Reduction (SR) Processes (Continued...) |
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NOC:Ironmaking and Steelmaking |
Lecture 59 - Ironmaking and Steelmaking in India |
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NOC:Ironmaking and Steelmaking |
Lecture 60 - Ironmaking and Steelmaking in India (Continued...) |
Link |
NOC:Non-Metallic Materials |
Lecture 1 - Classification and applications of non-metallic materials |
Link |
NOC:Non-Metallic Materials |
Lecture 2 - Understanding on polymer structures |
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NOC:Non-Metallic Materials |
Lecture 3 - Characteristics of polymers and advanced polymeric materials |
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NOC:Non-Metallic Materials |
Lecture 4 - Processing of polymers |
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NOC:Non-Metallic Materials |
Lecture 5 - Polymer composites and issues related to recycling |
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NOC:Non-Metallic Materials |
Lecture 6 - Defects in crystalline materials:point, line, planar and three dimensional defects |
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NOC:Non-Metallic Materials |
Lecture 7 - Non- stoichiometry in non-metallic materials |
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NOC:Non-Metallic Materials |
Lecture 8 - Laws of thermodynamics, reaction kinetics - Part 1 |
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NOC:Non-Metallic Materials |
Lecture 9 - Laws of thermodynamics, reaction kinetics - Part 2 |
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NOC:Non-Metallic Materials |
Lecture 10 - Phase diagram and microstructure evolution in non-metallic materials |
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NOC:Non-Metallic Materials |
Lecture 11 - Carbonaceous materials |
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NOC:Non-Metallic Materials |
Lecture 12 - Fundamental of diffusion, Fick’s laws, their solution and applications - Part 1 |
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NOC:Non-Metallic Materials |
Lecture 13 - Fundamental of diffusion, Fick’s laws, their solution and applications - Part 2 |
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NOC:Non-Metallic Materials |
Lecture 14 - Phase transformation of non-metallic materials |
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NOC:Non-Metallic Materials |
Lecture 15 - Introduction to glass and amorphous solids |
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NOC:Non-Metallic Materials |
Lecture 16 - Understanding on conventional glass and amorphous solids |
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NOC:Non-Metallic Materials |
Lecture 17 - Glass-ceramics and specialty glasses |
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NOC:Non-Metallic Materials |
Lecture 18 - Mechanical properties of non-metallic materials, stress-strain response, elastic, and plastic deformation |
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NOC:Non-Metallic Materials |
Lecture 19 - Brittle and ductile materials, introduction to fracture mechanics, strength of brittle materials |
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NOC:Non-Metallic Materials |
Lecture 20 - Strengthening of materials, fatigue, and creep |
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NOC:Non-Metallic Materials |
Lecture 21 - Composite materials: Particle-reinforced composites, and fiber reinforced composites |
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NOC:Non-Metallic Materials |
Lecture 22 - Structural Composite |
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NOC:Non-Metallic Materials |
Lecture 23 - Dielectric and piezoelectric behavior |
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NOC:Non-Metallic Materials |
Lecture 24 - Ferroelectric Behaviour of Non-Metallic Materials and Ferroelectric thin film for Non-Volatile Memory Applications |
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NOC:Non-Metallic Materials |
Lecture 25 - Magnetic Properties : Origin of Magnetism, Para, Dia, Ferro, and Ferrimagnetism |
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NOC:Non-Metallic Materials |
Lecture 26 - Ceramic Magnets and their Applications |
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NOC:Non-Metallic Materials |
Lecture 27 - Thermal Properties : Specific Heat, Heat Conduction, Thermal Diffusivity, Thermal expansion |
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NOC:Non-Metallic Materials |
Lecture 28 - Thermoelectric Effect and Magnetocaloric Effect |
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NOC:Non-Metallic Materials |
Lecture 29 - Optical properties: Refractive index, absorption and transmission of electromagnetic radiation, LASERS |
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NOC:Non-Metallic Materials |
Lecture 30 - Introduction to electrochemistry, Galvanic cells, Cell potentials and Gibbs Energy, Concentration dependence |
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NOC:Non-Metallic Materials |
Lecture 31 - Electrochemical storage, rechargeable batteries |
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NOC:Non-Metallic Materials |
Lecture 32 - Introduction to electrochemical methods; cyclic voltammetry and other related techniques |
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NOC:Non-Metallic Materials |
Lecture 33 - Fuel Cell and Energy harvesting |
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NOC:Non-Metallic Materials |
Lecture 34 - Preparation of ceramic powders: auto-combustion, sol-gel synthesis, microwave assisted hydrothermal synthesis |
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NOC:Non-Metallic Materials |
Lecture 35 - Introduction to sintering, sintering mechanism |
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NOC:Non-Metallic Materials |
Lecture 36 - Solid-state sintering and microstructure development |
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NOC:Non-Metallic Materials |
Lecture 37 - Solid-state sintering and microstructure development (Continued...) |
Link |
NOC:Non-Metallic Materials |
Lecture 38 - Liquid phase sintering and microstructure development, speciality sintering, reactive sintering |
Link |
NOC:Non-Metallic Materials |
Lecture 39 - Processing of glass and amorphous/non-crystalline solids |
Link |
NOC:Non-Metallic Materials |
Lecture 40 - Fundamental of thin film growth, growth mechanism and kinetics |
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NOC:Non-Metallic Materials |
Lecture 41 - Thin film growth techniques, thermal evaporation, CVD, sputtering, CSD |
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NOC:Non-Metallic Materials |
Lecture 42 - Fundamentals and processing of conducting and semiconducting ceramic devices |
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NOC:Non-Metallic Materials |
Lecture 43 - Processing of ceramics devices |
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NOC:Non-Metallic Materials |
Lecture 44 - Organic electronic materials: conducting polymers, semi-conducting organic materials, applications |
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NOC:Non-Metallic Materials |
Lecture 45 - Thermal analyses |
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NOC:Non-Metallic Materials |
Lecture 46 - Introduction of spectroscopic technique : UV-VIS spectroscopy |
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NOC:Non-Metallic Materials |
Lecture 47 - Infra-red and Raman spectroscopy |
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NOC:Non-Metallic Materials |
Lecture 48 - Optical and scanning electron microscopy |
Link |
NOC:Non-Metallic Materials |
Lecture 49 - X-ray photoelectron spectroscopy |
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NOC:Non-Metallic Materials |
Lecture 50 - Measurement of mechanical properties, fracture toughness, MOR, hardness |
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NOC:Non-Metallic Materials |
Lecture 51 - Ferroelectric thin film: synthesis and characterization |
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NOC:Non-Metallic Materials |
Lecture 52 - Thermal analysis techniques: Differential scanning calorimetry and thermogravimetry |
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NOC:Non-Metallic Materials |
Lecture 53 - Measurement of optical properties |
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NOC:Non-Metallic Materials |
Lecture 54 - Novel ferroic composites: Synthesis and measurement |
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NOC:Non-Metallic Materials |
Lecture 55 - Fundamentals of corrosion, corrosion of materials |
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NOC:Non-Metallic Materials |
Lecture 56 - Oxidation, corrosion of ceramic materials, degradation of polymers: swelling and dissolution, bond rupture, weathering |
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NOC:Non-Metallic Materials |
Lecture 57 - Ceramics in biology and medicine |
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NOC:Non-Metallic Materials |
Lecture 58 - Design of Ceramics |
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NOC:Non-Metallic Materials |
Lecture 59 - Finishing of Ceramics |
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NOC:Non-Metallic Materials |
Lecture 60 - Fly-ash based glazed wall tiles: A case study |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 1 - Introduction to Microscopy |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 2 - Scanning Electron Microscopy |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 3 - SEM and Its Capabilities |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 4 - Main Components of SEM - Electron Guns |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 5 - Main Components of SEM - Electron Guns and Electromagnetic Lenses |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 6 - Electron Probe Diameter Verses Electron Probe Current |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 7 - Electron Beam - Specimen Interaction |
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NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 8 - Detectors |
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NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 9 - BSE Detector and Sample Preparation for SEM |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 10 - Parameters Need to be Considered to obtain a Good SEM Image |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 11 - How to Get a Good SEM Image |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 12 - Additional Capabilities of SEM |
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NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 13 - Additional Capabilities of SEM (Continued...) |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 14 - Additional Capabilities of SEM (Continued...) |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 15 - Scanning Ion Microscopy - An Introduction |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 16 - Ions Versus Electrons as Source for Microscopy |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 17 - Ions Source in HIM |
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NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 18 - GFIS Properties and Ion Optical Column |
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NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 19 - Ion Optical Column |
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NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 20 - Ion-Solid Interactions and Signal Generation |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 21 - Signal Generation and Contrast Mechanism |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 22 - Contrast Mechanism and Imaging Modes |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 23 - Scanning Transmission Ion Microscopy and Microanalysis with HIM |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 24 - Creation and Modification of Materials by HIM |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 25 - Introduction to Scanning Probe Microscopy |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 26 - STM Instrumentation |
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NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 27 - Main Components of STM |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 28 - Main Components of STM (Continued...) |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 29 - Main Components of STM (Continued...) |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 30 - Working Principle of STM |
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NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 31 - Operating Modes |
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NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 32 - Scanning Tunneling Spectroscopy |
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NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 33 - SPM - Atomic Force Microscopy (AFM) |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 34 - Force Between Tip and Sample in AFM |
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NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 35 - Atomic Force Microscope - Parts |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 36 - Modes of AFM Operation |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 37 - Modes of AFM Operation (Continued...) |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 38 - AFM Imaging |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 39 - Phase Imaging, Noises and Resolution |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 40 - Surface Properties Measurements using Other Forces |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 41 - Surface Properties Measurements using AFM |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 42 - Manipulation of Atoms, Molecules and Industrial Applications |
Link |
NOC:Scanning Electron-Ion-Probe Microscopy in Materials Characterization |
Lecture 43 - Summary |
Link |
NOC:Techniques of Material Characterization |
Lecture 1 - Introduction to the course and basic principles of image formation |
Link |
NOC:Techniques of Material Characterization |
Lecture 2 - Image formation, resolution, magnification, depth of field and depth of focus |
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NOC:Techniques of Material Characterization |
Lecture 3 - Aberrations in microscopy: General concepts |
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NOC:Techniques of Material Characterization |
Lecture 4 - Introduction, types and image formation in Optical microscopy |
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NOC:Techniques of Material Characterization |
Lecture 5 - Components of optical microscope |
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NOC:Techniques of Material Characterization |
Lecture 6 - Bright field and Dark field modes |
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NOC:Techniques of Material Characterization |
Lecture 7 - Phase contrast optical microscopy |
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NOC:Techniques of Material Characterization |
Lecture 8 - Polarized light microscopy |
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NOC:Techniques of Material Characterization |
Lecture 9 - Differential interference contrast |
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NOC:Techniques of Material Characterization |
Lecture 10 - Fluorescence microscopy |
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NOC:Techniques of Material Characterization |
Lecture 11 - Basic components of electron microscope |
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NOC:Techniques of Material Characterization |
Lecture 12 - Basic components of electron microscope (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 13 - Basic components of electron microscope (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 14 - Electron-material interaction |
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NOC:Techniques of Material Characterization |
Lecture 15 - Electron-material interaction (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 16 - Electron-material interaction (Continued...) and Image formation and contrast generation |
Link |
NOC:Techniques of Material Characterization |
Lecture 17 - Modes of TEM (BF and DF) |
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NOC:Techniques of Material Characterization |
Lecture 18 - Modes of TEM |
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NOC:Techniques of Material Characterization |
Lecture 19 - Modes of TEM (Continued...) and Electron diffraction in TEM |
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NOC:Techniques of Material Characterization |
Lecture 20 - Electron diffraction in TEM |
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NOC:Techniques of Material Characterization |
Lecture 21 - Electron diffraction in TEM (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 22 - Electron diffraction in TEM (Continued...) |
Link |
NOC:Techniques of Material Characterization |
Lecture 23 - Electron diffraction in TEM (Continued...) |
Link |
NOC:Techniques of Material Characterization |
Lecture 24 - Electron diffraction in TEM (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 25 - Application of Electron diffraction |
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NOC:Techniques of Material Characterization |
Lecture 26 - Signal generation in SEM |
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NOC:Techniques of Material Characterization |
Lecture 27 - Signal generation in SEM (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 28 - Signal generation in SEM (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 29 - Signal generation in SEM (Continued...) |
Link |
NOC:Techniques of Material Characterization |
Lecture 30 - Signal generation in SEM (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 31 - Basic components of SEM |
Link |
NOC:Techniques of Material Characterization |
Lecture 32 - Basic components of SEM (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 33 - Optics of SEM |
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NOC:Techniques of Material Characterization |
Lecture 34 - Optics of SEM (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 35 - Optics of SEM (Continued...) and analytical detectors |
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NOC:Techniques of Material Characterization |
Lecture 36 - Analytical detectors in SEM |
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NOC:Techniques of Material Characterization |
Lecture 37 - Analytical (WDS) detector and contrast formation in SEM |
Link |
NOC:Techniques of Material Characterization |
Lecture 38 - Imaging in SEM |
Link |
NOC:Techniques of Material Characterization |
Lecture 39 - Imaging in SEM (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 40 - Imaging in SEM (Continued...) |
Link |
NOC:Techniques of Material Characterization |
Lecture 41 - Imaging in SEM and X-ray diffraction |
Link |
NOC:Techniques of Material Characterization |
Lecture 42 - Continuous and characteristics X-ray spectrum |
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NOC:Techniques of Material Characterization |
Lecture 43 - Characteristics X-ray radiation |
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NOC:Techniques of Material Characterization |
Lecture 44 - Characteristics X-ray radiation (Continued...) and X-ray absorption |
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NOC:Techniques of Material Characterization |
Lecture 45 - X-ray absorption (Continued...) |
Link |
NOC:Techniques of Material Characterization |
Lecture 46 - X-ray absorption and filters |
Link |
NOC:Techniques of Material Characterization |
Lecture 47 - Intensity of diffracted beam |
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NOC:Techniques of Material Characterization |
Lecture 48 - Intensity of diffracted beam (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 49 - Intensity of diffracted beam (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 50 - Intensity of diffracted beam (Continued...) |
Link |
NOC:Techniques of Material Characterization |
Lecture 51 - Intensity of diffracted beam (Continued...) |
Link |
NOC:Techniques of Material Characterization |
Lecture 52 - Intensity of diffracted beam (Continued...) |
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NOC:Techniques of Material Characterization |
Lecture 53 - Intensity of diffracted beam (Continued...) |
Link |
NOC:Techniques of Material Characterization |
Lecture 54 - Intensity of diffracted beam (Continued...) |
Link |
NOC:Techniques of Material Characterization |
Lecture 55 - Intensity of diffracted beam (Continued...) |
Link |
NOC:Techniques of Material Characterization |
Lecture 56 - Intensity of diffracted beam (Continued...) and X-ray diffraction profile and analysis |
Link |
NOC:Techniques of Material Characterization |
Lecture 57 - X-ray diffraction profile and analysis |
Link |
NOC:Techniques of Material Characterization |
Lecture 58 - X-ray diffraction profile and analysis (Continued...) |
Link |
NOC:Techniques of Material Characterization |
Lecture 59 - X-ray diffraction profile and analysis (Continued...) |
Link |
NOC:Techniques of Material Characterization |
Lecture 60 - Electron backscatter diffraction (EBSD) |
Link |
NOC:Electrochemical Energy Storage |
Lecture 1 - Fundamentals of electrochemistry, definition of primary and secondary batteries |
Link |
NOC:Electrochemical Energy Storage |
Lecture 2 - Primary batteries and Secondary batteries |
Link |
NOC:Electrochemical Energy Storage |
Lecture 3 - Supercapacitors |
Link |
NOC:Electrochemical Energy Storage |
Lecture 4 - Concepts of thermodynamics pertinent to electrochemical cells |
Link |
NOC:Electrochemical Energy Storage |
Lecture 5 - Kinetics of electrochemical cells and structural characteristics of electrodes |
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NOC:Electrochemical Energy Storage |
Lecture 6 - Introduction to EMF, redox potential, Faraday law and Nernst’s law |
Link |
NOC:Electrochemical Energy Storage |
Lecture 7 - Terminology related to secondary battery : half-cell,full-cell, redox couple,positive |
Link |
NOC:Electrochemical Energy Storage |
Lecture 8 - Measurements: Cyclic voltammetry, nominal voltage, capacity, rate performance |
Link |
NOC:Electrochemical Energy Storage |
Lecture 9 - Impedance spectroscopy measurement and analyses |
Link |
NOC:Electrochemical Energy Storage |
Lecture 10 - Measurement of rechargeable cell: Case study |
Link |
NOC:Electrochemical Energy Storage |
Lecture 11 - History and categories of lithium batteries |
Link |
NOC:Electrochemical Energy Storage |
Lecture 12 - Operational mechanisms for lithium batteries: Intercalation materials, alloys |
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NOC:Electrochemical Energy Storage |
Lecture 13 - Differences of voltage profiles between intercalation materials, alloys, and conversion |
Link |
NOC:Electrochemical Energy Storage |
Lecture 14 - Properties of electrode materials (Case study: alloy as anode) |
Link |
NOC:Electrochemical Energy Storage |
Lecture 15 - Properties of electrode materials (conversion type oxide as case study) |
Link |
NOC:Electrochemical Energy Storage |
Lecture 16 - Positive electrodes: Lithiated transition metal oxides, lithiated iron oxyphosphates etc |
Link |
NOC:Electrochemical Energy Storage |
Lecture 17 - Negative electrodes: Carbonaceous materials, lithium titanium oxides etc |
Link |
NOC:Electrochemical Energy Storage |
Lecture 18 - Electrolyte :Liquid Electrolyte, Polymer Electrolyte |
Link |
NOC:Electrochemical Energy Storage |
Lecture 19 - Current Collector, Conductive Agents, Separator and Other Accessories |
Link |
NOC:Electrochemical Energy Storage |
Lecture 20 - Novel materials for lithium ion rechargeable cells |
Link |
NOC:Electrochemical Energy Storage |
Lecture 21 - Principle of Operation of Commerical Cells : viz. C - NMC, C - NCA etc |
Link |
NOC:Electrochemical Energy Storage |
Lecture 22 - Principle of operation of commercial cells |
Link |
NOC:Electrochemical Energy Storage |
Lecture 23 - Major characteristics of commercial Li ion cells: Cell performance,degradation phenomena |
Link |
NOC:Electrochemical Energy Storage |
Lecture 24 - Fabrication of Li ion cell: Cylindrical configuration |
Link |
NOC:Electrochemical Energy Storage |
Lecture 25 - Fabrication of Li ion cell: Pouch and prismatic cell |
Link |
NOC:Electrochemical Energy Storage |
Lecture 26 - Positive electrodes: Layered oxide, polyanionic compounds (phosphates, sulphates etc) |
Link |
NOC:Electrochemical Energy Storage |
Lecture 27 - Negative electrodes: Carbonaceous materials, alloy based and other materials |
Link |
NOC:Electrochemical Energy Storage |
Lecture 28 - Electrolytes: Roles and requirements, organic electrolyte, ionic liquid electrolyte |
Link |
NOC:Electrochemical Energy Storage |
Lecture 29 - Performance of Na ion rechargeable cell |
Link |
NOC:Electrochemical Energy Storage |
Lecture 30 - Future perspective of Na ion cells |
Link |
NOC:Electrochemical Energy Storage |
Lecture 31 - Introduction to battery module, BMS, thermal management and pack design |
Link |
NOC:Electrochemical Energy Storage |
Lecture 32 - Degradation and safety issues of Li ion rechargeable cells |
Link |
NOC:Electrochemical Energy Storage |
Lecture 33 - Introduction to battery management system: BMS topologies, hardware, concept of active |
Link |
NOC:Electrochemical Energy Storage |
Lecture 34 - Introduction to thermal management: Active thermal management system, passive thermal |
Link |
NOC:Electrochemical Energy Storage |
Lecture 35 - Packaging of battery pack and battery testing: Material selection, sealing of enclosure |
Link |
NOC:Electrochemical Energy Storage |
Lecture 36 - Classification of supercapacitors: EDLC and pseudocapacitative type |
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NOC:Electrochemical Energy Storage |
Lecture 37 - Pseudocapacitor |
Link |
NOC:Electrochemical Energy Storage |
Lecture 38 - Asymmetric supercapacitor and BATCAP: Battery supercapacitor hybrid electrochemical |
Link |
NOC:Electrochemical Energy Storage |
Lecture 39 - Electrolytes for supercapacitors: Aqueous/organic liquid electrolytes/ionic liquid |
Link |
NOC:Electrochemical Energy Storage |
Lecture 40 - Current collectors, separators etc. and their effect on performance |
Link |
NOC:Electrochemical Energy Storage |
Lecture 41 - Operational principles of aqueous and Li - O2 batteries |
Link |
NOC:Electrochemical Energy Storage |
Lecture 42 - Electrolytes for Li - O2 batteries |
Link |
NOC:Electrochemical Energy Storage |
Lecture 43 - Limitations of Li - Air batteries |
Link |
NOC:Electrochemical Energy Storage |
Lecture 44 - State of the art Li - Air batteries : Carbonaceous materials |
Link |
NOC:Electrochemical Energy Storage |
Lecture 45 - State of the art Li - Air batteries: Case study |
Link |
NOC:Electrochemical Energy Storage |
Lecture 46 - The element sulfur, principle of operation |
Link |
NOC:Electrochemical Energy Storage |
Lecture 47 - Advantages and disadvantages of Li - S batteries, positive electrodes |
Link |
NOC:Electrochemical Energy Storage |
Lecture 48 - Electrolyte and negative electrode for Li - S battery |
Link |
NOC:Electrochemical Energy Storage |
Lecture 49 - State of the art Li - S batteries : Case study - I |
Link |
NOC:Electrochemical Energy Storage |
Lecture 50 - State of the art Li - S batteries : Case study - II |
Link |
NOC:Electrochemical Energy Storage |
Lecture 51 - Global Geographic Distribution of Raw Lithium Resources |
Link |
NOC:Electrochemical Energy Storage |
Lecture 52 - Nature and geological origin of all potential lithium resources |
Link |
NOC:Electrochemical Energy Storage |
Lecture 53 - State of the art extraction techniques and known production reserves |
Link |
NOC:Electrochemical Energy Storage |
Lecture 54 - Recycling of lithium and other battery constituents from used battery |
Link |
NOC:Electrochemical Energy Storage |
Lecture 55 - Recycling of lithium and other battery constituents from used battery (Continued...) |
Link |
NOC:Electrochemical Energy Storage |
Lecture 56 - Lead Acid Batteries: Operational principles, main characteristics and applications |
Link |
NOC:Electrochemical Energy Storage |
Lecture 57 - Lead Acid Batteries: Operational principles, main characteristics and applications (Continued...) |
Link |
NOC:Electrochemical Energy Storage |
Lecture 58 - Ni-Cd and Ni-MeH Batteries: Operational principles, main characteristics and applications |
Link |
NOC:Electrochemical Energy Storage |
Lecture 59 - Redox flow battery vanadium redox battery,operational principle, and main characteristics |
Link |
NOC:Electrochemical Energy Storage |
Lecture 60 - Other Redox Flow Battery Technologies |
Link |
NOC:Texture in Materials |
Lecture 1 - Introduction |
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NOC:Texture in Materials |
Lecture 2 - Texture and Anisotropy |
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NOC:Texture in Materials |
Lecture 3 - Processing - Texture - Anisotropic Properties |
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NOC:Texture in Materials |
Lecture 4 - Crystal Structure and Stereographic Projections |
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NOC:Texture in Materials |
Lecture 5 - Utilization of Stereographic Projections |
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NOC:Texture in Materials |
Lecture 6 - Diffraction and Bragg's Law |
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NOC:Texture in Materials |
Lecture 7 - Structure Factor and Diffraction Extinction Criteria |
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NOC:Texture in Materials |
Lecture 8 - Structure factor and diffraction extinction criteria (Continued...) |
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NOC:Texture in Materials |
Lecture 9 - Pole figures |
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NOC:Texture in Materials |
Lecture 10 - Pole figures (Continued...) |
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NOC:Texture in Materials |
Lecture 11 - Inverse Pole Figures |
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NOC:Texture in Materials |
Lecture 12 - Three Dimensional Texture Analysis |
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NOC:Texture in Materials |
Lecture 13 - Euler Angles and ODFs |
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NOC:Texture in Materials |
Lecture 14 - Euler Angles and ODFs (Continued...) |
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NOC:Texture in Materials |
Lecture 15 - Euler Angles and ODFs (Continued...) |
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NOC:Texture in Materials |
Lecture 16 - Euler Angles and ODFs (Continued...) |
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NOC:Texture in Materials |
Lecture 17 - Symmetry Effects on Orientation Matrix |
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NOC:Texture in Materials |
Lecture 18 - Euler Space and Orientation Matrices |
Link |
NOC:Texture in Materials |
Lecture 19 - Texture Fibre, Periodicity in Euler Space, Incomplete Pole Figures |
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NOC:Texture in Materials |
Lecture 20 - Crystal Structures and Symmetry |
Link |
NOC:Texture in Materials |
Lecture 21 - Size of Euler Space in Relation to Crystal and Sample Symmetry |
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NOC:Texture in Materials |
Lecture 22 - Macrotexture and Microtexture Measurements |
Link |
NOC:Texture in Materials |
Lecture 23 - Penetration Depth of X-ray, Neutron, e-1 and Basics of X-ray Generation |
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NOC:Texture in Materials |
Lecture 24 - Characteristic X-ray, Absorption and Filters |
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NOC:Texture in Materials |
Lecture 25 - Principles of pole figure measurements by X-ray diffraction |
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NOC:Texture in Materials |
Lecture 26 - Texture Goniometer Components |
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NOC:Texture in Materials |
Lecture 27 - Limitations and Errors in X-ray Texture Measurement and Corrections |
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NOC:Texture in Materials |
Lecture 28 - Basics of Electron Microscopy - I |
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NOC:Texture in Materials |
Lecture 29 - Basics of Electron Microscopy - II |
Link |
NOC:Texture in Materials |
Lecture 30 - Kikuchi Diffraction Pattern - I |
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NOC:Texture in Materials |
Lecture 31 - Kikuchi Diffraction Pattern - II |
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NOC:Texture in Materials |
Lecture 32 - Quantitative Evaluation of Kikuchi Diffraction Pattern - I |
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NOC:Texture in Materials |
Lecture 33 - Quantitative evaluation of Kikuchi Diffraction Pattern - II |
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NOC:Texture in Materials |
Lecture 34 - Quantitative evaluation of Kikuchi Diffraction Pattern - III |
Link |
NOC:Texture in Materials |
Lecture 35 - Analysis using the TSL-OIM software |
Link |
NOC:Texture in Materials |
Lecture 36 - Analysis using the AZtec Crystal software |
Link |
NOC:Texture in Materials |
Lecture 37 - Analysis using the ATEX software |
Link |
NOC:Texture in Materials |
Lecture 38 - Introduction to solidification texture |
Link |
NOC:Texture in Materials |
Lecture 39 - Solidification texture in Alloys |
Link |
NOC:Texture in Materials |
Lecture 40 - Solidification texture in FCC, BCC, and HCP structures |
Link |
NOC:Texture in Materials |
Lecture 41 - Phase Transformation Texture and Bain Strain |
Link |
NOC:Texture in Materials |
Lecture 42 - Orientation Relationships between FCC and BCC / BCT |
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NOC:Texture in Materials |
Lecture 43 - Various Orientation Relationships and Variants |
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NOC:Texture in Materials |
Lecture 44 - Basic Mechanics of Polycrystal Plasticity |
Link |
NOC:Texture in Materials |
Lecture 45 - Basic Mechanics of Polycrystal Plasticity (Continued...) |
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NOC:Texture in Materials |
Lecture 46 - A Metallurgist Point of View |
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NOC:Texture in Materials |
Lecture 47 - A Metallurgist Point of View (Continued...) |
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NOC:Texture in Materials |
Lecture 48 - Texture in FCC polycrystals |
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NOC:Texture in Materials |
Lecture 49 - Texture in BCC polycrystals - I |
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NOC:Texture in Materials |
Lecture 50 - Texture in BCC polycrystals - II |
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NOC:Texture in Materials |
Lecture 51 - Texture in HCP polycrystals - I |
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NOC:Texture in Materials |
Lecture 52 - Texture in HCP polycrystals - II |
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NOC:Texture in Materials |
Lecture 53 - Texture in HCP polycrystals - III |
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NOC:Texture in Materials |
Lecture 54 - Static recrystallization |
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NOC:Texture in Materials |
Lecture 55 - Dynamic recrystallization and recrystallization texture |
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NOC:Texture in Materials |
Lecture 56 - Dynamic recrystallization and grain refinement during hot large strain shear |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 1 - Classification of Mining and Bulk Sold Handling Systems |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 2 - Properties of bulk material vis-a-vis different bulk handling operations |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 3 - Fundamentals of BMH and Transport: Capacity and Productivity Concepts |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 4 - Bulk material handling in Processing plants: Crushing and Screening Flow Charts |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 5 - Introduction to Bulk Material Transport and Autonomous Vehicles |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 6 - Constructional Components: Trends of Developments |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 7 - Belt Conveyor Construction: Belting for Bulk Material Conveyor |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 8 - Idlers and Belt Cleaners |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 9 - Feeding and Discharging Devices |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 10 - Safety and Troubleshooting |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 11 - Size Selection and Power Calculation |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 12 - Principle of operations and applicability |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 13 - Basic Design Calculations |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 14 - Introduction to Pneumatic Conveying systems |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 15 - Design Calculations for Pneumatic Conveying |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 16 - Exercise with Basic Design Calculations |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 17 - Stackers and Reclaimers: Classification and Selection Criteria |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 18 - Stackers and Reclaimers: Comparison of Different Types |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 19 - Principles of Blending and Reclaiming |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 20 - Case studies of stacker and reclaimers application |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 21 - System Layout |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 22 - Introduction to Bin Bunker and Silo |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 23 - Introduction to Bunker |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 24 - Introduction to Silo |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 25 - Silo Failures and Maintenance |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 26 - Basics of Silo Design |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 27 - Feeder Selection and Design |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 28 - Crushers: Classification and selection |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 29 - Secondary Crushers |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 30 - Screen: Classification and Selection |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 31 - Monitoring and Maintenance of Processing Plant Equipment |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 32 - Concentration and Separation |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 33 - Fine Size Classification: Desliming and Cycloning |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 34 - Froth Flotation Techniques, Magnetic Separation, Jigs and Thickeners |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 35 - Jigs and Thickeners |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 36 - Coal Washery Equipment and Practices |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 37 - Classification and Selection |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 38 - Crusher Selection and Application |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 39 - Off-Highway trucks and Haul Roads - 1 |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 40 - Off-Highway trucks and Haul Roads - 2 |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 41 - Recent Developments in Truck Transportation |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 42 - RopeCon Transportation |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 43 - Aerial Ropeways: Introduction |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 44 - Aerial Ropeways Calculation |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 45 - Pipe Conveyor Belt: Enclosed Material Transport |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 46 - Underground Mine Transport System |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 47 - Rope Haulage for Underground Mine Transport |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 48 - Main and Tail and Endless Rope Haulage |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 49 - Pit Top and Pit Bottom Layout |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 50 - Haulage calculation |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 51 - Locomotive |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 52 - Low Profile Dumper |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 53 - Load Haul Dumper |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 54 - Introduction to Cage and Skip Winding |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 55 - Winding Calculations |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 56 - Safety Aspects in Bulk Solid Handling and Transportation |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 57 - Safety Aspects in Bulk Solid Handling and Transportation |
Link |
NOC:Bulk Material Transport and Handling Systems |
Lecture 58 - Basic Introduction of Automatic Control |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 59 - Automating Bulk Solids Processes |
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NOC:Bulk Material Transport and Handling Systems |
Lecture 60 - Online Monitoring |
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NOC:Environmental Degradation and Surface Engineering |
Lecture 1 - Introduction to Materials and Environment |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 2 - Genesis of Materials Degradation |
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NOC:Environmental Degradation and Surface Engineering |
Lecture 3 - Classification of degradation and Parameters Influencing it - Part I |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 4 - Parameters Influencing Degradation - Part II |
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NOC:Environmental Degradation and Surface Engineering |
Lecture 5 - Engineering Solution to Combat Environmental Degradation of Materials |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 6 - Aqueous corrosion-thermodynamics of Wet Corrosion |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 7 - Aqueous corrosion-Classification - Part I |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 8 - Aqueous corrosion-Classification - Part II |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 9 - Classification of Aqueous corrosion - Part III |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 10 - Classification of Aqueous corrosion - Part IV |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 11 - Friction and Wear-Part - I |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 12 - Friction and Wear-Part - II |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 13 - Wear- Classification of wear - Part I |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 14 - Wear- Classification of wear - Part II |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 15 - Fatigue – Surface Dependent Property |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 16 - Failure Analysis - Part I |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 17 - Failure Analysis - Part II |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 18 - Characteristics of Failure - Part I |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 19 - Characteristics of Failure - Part II |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 20 - Characteristics of Failure - Part III |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 21 - Prevention |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 22 - Prevention of Chemical/Electrochemical Degradation |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 23 - Prevention of Chemical/Electrochemical Degradation (Continued...) |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 24 - Prevention of Chemical/Electrochemical Degradation (Continued...) |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 25 - Prevention of Mechanical Degradation |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 26 - Non Destructive Testing |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 27 - Mechanical and Electrochemical Testing - Part I |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 28 - Mechanical and Electrochemical Testing - Part II |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 29 - Mechanical and Electrochemical Testing - Part III |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 30 - Characterization |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 31 - Surface/Interface |
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NOC:Environmental Degradation and Surface Engineering |
Lecture 32 - Scope, Classification and Objectives of Surface Engineering |
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NOC:Environmental Degradation and Surface Engineering |
Lecture 33 - Shot Peening |
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NOC:Environmental Degradation and Surface Engineering |
Lecture 34 - Grinding and Polishing |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 35 - Ultrasonic Peening and Laser Shock Peening |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 36 - Conventional Surface Hardening (Flame and induction) |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 37 - Pack Carburizing |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 38 - Fluidized Bed Carburizing |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 39 - Fused bath and Gas Nitriding |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 40 - Plasma Nitriding |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 41 - Diffusion Based Coatings - Solid State |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 42 - Chemical Conversion Coatings |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 43 - Electrodeposition |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 44 - Electrophoretic and Electroless deposition |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 45 - Galvanizing and Hot Dipping |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 46 - Thick Coatings by Weld Overlay and Cladding |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 47 - Introduction to thin film deposition |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 48 - Physical Vapor Deposition including Sputtering |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 49 - Chemical Vapor Deposition (CVD) and Composite Coating |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 50 - Chemical Vapor Deposition (CVD) and Composite Coating |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 51 - Spray Coating Techniques II - Plasma Spray and Cold Spray |
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NOC:Environmental Degradation and Surface Engineering |
Lecture 52 - Ion Implantation |
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NOC:Environmental Degradation and Surface Engineering |
Lecture 53 - Electron Beam Assisted Surface Engineering |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 54 - Laser Material Processing |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 55 - Laser Surface Engineering |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 56 - Laser Assisted Additive Manufacturing, LAM |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 57 - Strengthening Mechanisms in Surface Engineering |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 58 - Microstructural Characterization after Surface Engineering |
Link |
NOC:Environmental Degradation and Surface Engineering |
Lecture 59 - Compositional Characterization after Surface Engineering |
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NOC:Environmental Degradation and Surface Engineering |
Lecture 60 - Summary of surface engineering and Conclusion |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 1 - Modes of Fracture |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 2 - Theoretical Strengths and Defects |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 3 - Stress Concentration |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 4 - Griffith Criterion |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 5 - Griffith Criteria - Modification |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 6 - Stress Intensity Factor |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 7 - Fracture Toughness and Plane Stress-Plane Strain |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 8 - Plastic Zone Size |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 9 - Plane stress and plane strain fracture toughness |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 10 - Plane stress and plane strain fracture toughness (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 11 - Plane Strain Fracture Toughness Testing |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 12 - Plane Strain-Plane Stress Fracture Toughness Testing |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 13 - Plane Stress Fracture Toughness |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 14 - Plane Stress fracture toughness-J integral |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 15 - Experimental determination of JIC |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 16 - J-integral and JIC |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 17 - Impact Toughness |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 18 - Impact Toughness (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 19 - Impact Toughness (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 20 - Impact Toughness (Continued...) |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 21 - Impact Toughness (Continued...) |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 22 - Fracture Toughness |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 23 - Fracture Toughness (Continued...) |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 24 - Fracture Toughness (Continued...) |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 25 - Fracture Toughness (Continued...) |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 26 - Fracture Toughness (Continued...) |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 27 - Environment Assisted Fracture |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 28 - Environment Assisted Fracture (Continued...) |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 29 - Environment Assisted Fracture (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 30 - Introduction to Fatigue |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 31 - Stress Controlled Fatigue |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 32 - Stress Controlled Fatigue (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 33 - Stress Controlled Fatigue (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 34 - Stress Controlled Fatigue (Continued...) |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 35 - Strain Controlled Fatigue (Continued...) |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 36 - Strain Controlled Fatigue (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 37 - Strain Controlled Fatigue (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 38 - Strain Controlled Fatigue (Continued...) |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 39 - Fatigue Crack Nucleation |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 40 - Notch Effect |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 41 - Crack in Fatigue |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 42 - Fatigue Crack Propagation |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 43 - Fatigue Crack Propagation (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 44 - Fatigue Crack Propagation (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 45 - Fatigue Crack Propagation (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 46 - Fatigue Crack Propagation (Continued...) |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 47 - Fatigue Crack Propagation (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 48 - Fatigue in Materials |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 49 - Fatigue in Materials (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 50 - Effect of Temperature on Fatigue |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 51 - Failure Analysis |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 52 - Failure Analysis (Continued...) |
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NOC:Fracture, Fatigue and Failure of Materials |
Lecture 53 - Failure Analysis (Continued...) |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 54 - Failure Analysis - Case study - Titanic |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 55 - Failure Analysis - Case Study - ALK |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 56 - Failure Analysis - Case study - Point Pleasant Bridge |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 57 - Failure Analysis - Case Study - Rail Crash |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 58 - Failure Analysis - Case Study - Comet |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 59 - Failure Analysis - Case Study - Columbia |
Link |
NOC:Fracture, Fatigue and Failure of Materials |
Lecture 60 - Failure Analysis - Summary |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 1 - Introduction to closure concept |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 2 - Mine Closure Objectives and Regulatory Aspects |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 3 - Mining Footprint and Regulatory Aspects |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 4 - Mine Closure Costs and Financing Approaches |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 5 - Decommissioning of Mines |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 6 - Demolition Techniques |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 7 - Post Closure Liabilities and Activities |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 8 - Post Closure Community Concerns and Sustainable Development Plans |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 9 - Closure oriented Resource Development-Post Mining Land Uses |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 10 - Post mining site monitoring |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 11 - Planning inputs, tools and techniques |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 12 - Tools and Techniques for Closure Plan Development and Procedures |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 13 - Closure Plan Development Procedures |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 14 - Monitoring, Review and Feedback of Closure Plan Implementation-Closure Criteria |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 15 - Failure Mode and Effect Analysis Framework for Mine Closure Planning |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 16 - Multiple Accounts Analysis (MAA) for Assessment of Closure Alternatives |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 17 - Provisioning of capital |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 18 - Closure costs and Rehabilitation Costs |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 19 - Finance and Accounting: Closure cost estimate |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 20 - Closure Economics and Audit |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 21 - Application of Remote Sensing for Mine Closure-Introduction |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 22 - Remote Sensing Sensors |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 23 - Remote Sensing media and sensors |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 24 - Image Processing and Data Interpretation |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 25 - GIS for Mine Closure: Mapping and Geo-Spatial Data Analysis |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 26 - Integration of phase operations |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 27 - Integration of Interdepartmental work and phase operations - Part 1 |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 28 - Integration of Interdepartmental work and phase operations - Part 2 |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 29 - Risk Analysis Techniques and Management |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 30 - Post Mine Closure Waste to Wealth Conversion |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 31 - CSR and EMP Integration |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 32 - Introduction to Asset Management |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 33 - Principle of Asset Management and Decommissioning of Assets for Site Restoration |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 34 - Brownfield Redevelopment and Value Addition to Assets |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 35 - Landform Design and Post Mining Asset Creation |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 36 - Concept of Sustainable Development and Mining industry |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 37 - Sustainability Measurement and Reporting |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 38 - Sustainability Measurement and Reporting (Continued...) |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 39 - Sustainable Mineral Industry |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 40 - Policy and Legislative Framework of Sustainability for SDG and Mine Closure |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 41 - Communicating sustainability performance |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 42 - Framework of Sustainability reporting |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 43 - Sustainable accounting |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 44 - Case studies on Sustainability initiatives in Mining Industry |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 45 - Data Analytics for Sustainability management |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 46 - Cleaner Production Based Closure Management |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 47 - Regenerative environment design for sustainable Mine Closure |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 48 - Reusable resource identification in post closure mine site |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 49 - Optimization of Residual Value of Assets |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 50 - Post Mining Site for Community wealth |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 51 - Management of water resources |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 52 - Soil Treatment and Revegetation |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 53 - Bio-diversity: Post Land reclamation and plantation |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 54 - Physical and Chemical Stability issues |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 55 - Economic Utilization of Post Mining Structures and assets |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 56 - Techniques for closing underground workings |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 57 - Application of Industry 4.0 for Mine |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 58 - Best mining practices for Sustainable mining - Case studies |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 59 - Stability Monitoring and Enhancing tools |
Link |
NOC:Mine Closure and Sustainability Planning |
Lecture 60 - VR and AR Technology for Post Mining Mine site Visualization and Design |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 1 - Fundamental aspects of hybrid materials |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 2 - Materials selection basics for design with hybrid materials |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 3 - Classes of materials and material property charts |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 4 - Material property charts and concept of material indices |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 5 - Material property chart-indices and concept of hybridization |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 6 - Hybrid materials - Composite |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 7 - Cellular solids - Applications of metal foams |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 8 - Cellular solids - Applications of porous ceramics and polymer foams |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 9 - Basics of Composite Materials and Classification |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 10 - Composite Classification - Matrix and Reinforcement |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 11 - Fibers - Fundamentals, Glass fiber |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 12 - Fibers - Boron and Carbon Fibers |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 13 - Fibers - Aramid and Ceramic fibers, Alumina fiber |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 14 - Fibers - SiC fiber and Whiskers |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 15 - Metal matrix composites (MMCs) - Basic concept, Liquid state processing |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 16 - Metal matrix composites (MMCs) - Liquid and Solid state processing |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 17 - Ceramic Matrix Composites (CMCs) - Basic concept, Processing techniques |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 18 - Ceramic Matrix Composites (CMCs) - Processing techniques |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 19 - CMCs and PMCs - Processing and Application |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 20 - Fabrication of cellular ceramics |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 21 - Sintering of ceramics - Aspects and mechanisms |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 22 - Fabrication of cellular ceramics |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 23 - Processing of metal foams - Foaming techniques |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 24 - Processing of metal foams (Continued...) |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 25 - Processing of metal foams (Continued...) |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 26 - Polymer foams - Processing and properties |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 27 - Additive manufacturing - Definition and Prospects |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 28 - Cellular solids classification and Structure description |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 29 - Structure of cellular solids - Pore structure characterization |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 30 - Interfacial phenomena - Basic concept, Adhesion and Wettability |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 31 - Interfacial phenomena - Factors affecting wettability |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 32 - Interfacial phenomena - Interfacial bonding |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 33 - Interfacial phenomena - Interfacial strength measurement |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 34 - Interfacial phenomena - Case study - Al-MWCNT nanocomposite |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 35 - Interfacial phenomena - Case studies: MMCs and CMCs |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 36 - Interfacial phenomena - Case studies: MMCs and CMCs (Continued...) |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 37 - Mechanics of Composites - Unidirectional Lamina |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 38 - Mechanics: Fiber-reinforced composites - Transverse Loading |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 39 - Mechanics: Fiber-reinforced composites - Problem Solving |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 40 - Mechanics: Fiber-reinforced composites - Discontinuous fibers |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 41 - Mechanics of Composites - Discontinuous fibers |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 42 - Dependence of properties on pore structure |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 43 - Mechanics of cellular solids |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 44 - Mechanics of cellular solids (Continued...) |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 45 - Deformation behavior of honeycomb and foams |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 46 - Deformation behaviour of Foams |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 47 - Deformation behaviour of Foams (Continued...) |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 48 - Deformation behaviour of Foams (Continued...) |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 49 - Thermal properties of foams |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 50 - Other important properties of foams (Continued...) |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 51 - Advanced composites - MMCs |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 52 - Advanced composites - MMCs (Continued...) |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 53 - Advanced composites - CMCs |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 54 - Advanced composites - Advanced Processing Techniques |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 55 - Advanced composites - Advanced Processing Techniques (Continued...) |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 56 - Advanced composites - Advanced Processing Techniques (Continued...) |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 57 - Advanced composites - Application oriented advanced composites |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 58 - Microstructure and properties of natural cellular solid - wood |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 59 - Advanced hybrid material - Functionally graded composite materials (FGMs) |
Link |
NOC:Fundamentals of Composite and Cellular Materials |
Lecture 60 - Advanced hybrid material - Functionally graded composite materials (FGMs) (Continued...) |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 1 - Introduction, Classification and Uses of Metals |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 2 - Introduction, Classification and Uses of Metals (Continued...) |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 3 - Occurrence/Source of Metals |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 4 - Metal Extraction Process Overview |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 5 - Mineral Beneficiation: Overview and Mass Balances |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 6 - Crushing and Grinding (Comminution) |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 7 - Mineral Classification: Separation in Flowing Fluid |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 8 - Mineral Concentration by Froth Flotation |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 9 - Mineral Concentration by Froth Flotation |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 10 - Magnetic and Electric Separation/Concentration |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 11 - Sensor-based/Automatic Ore Sorting |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 12 - Solid-Liquid Separation |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 13 - Particle Size Estimation and Screening |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 14 - Fuels in Metallurgical Processes and Coal Characteritics |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 15 - Calorific Value and Caking Properties of Coal |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 16 - Coke: Making and Properties |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 17 - Combustion of Fuels |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 18 - Combustion: Mass and Heat Balance |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 19 - Combustion Heat Balance: Flame Temperature |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 20 - Combustion Heat Utilization in Furnace |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 21 - Heat Utilization in Furnace: Numerical Examples |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 22 - Classification of Furnaces |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 23 - Refractories for Furnace Linings |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 24 - Refractories: Testing and Production |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 25 - Agglomeration of Fines: Pelletization and Briquetting |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 26 - Agglomeration of Fines: Sintering |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 27 - Extraction of Metal from Sulfides: Roasting |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 28 - Roasting Reactors and Heat Balance |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 29 - Roasting: Predominance Area Diagram |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 30 - Roasting: Application of Predominance Area Diagram |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 31 - Reduction Smelting and Matte Smelting |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 32 - Metallurgical Slag |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 33 - Slag Viscosity, Surface Tention and Theories |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 34 - Slag: Masson and Molecular Theory, Numerical Examples |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 35 - Copper Extraction: Matte Smelting |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 36 - Copper Extraction: Flash Smelting |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 37 - Cu Extraction: Cyclone Flash Smelting and Numerical Examples |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 38 - Cu Extraction: Conversion |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 39 - Conversion of Nickel Sulphide and Numerical Examples |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 40 - TSL Smelting, Continuous Conversion and Direct Cu-Production |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 41 - Reduction Smelting: Lead Extraction |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 42 - Reduction Smelting: Zinc Extraction and ISP |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 43 - Extraction of Thin, Tungsten, Molybdenum and Numerical Examples |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 44 - Extraction of Nb, V, Ferroalloys and Titania (from llmenite) |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 45 - Silicothermy: Pyrometallurgical Magnesium Extraction |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 46 - Reduction Smelting: Iron Extraction in Blast Furnace |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 47 - Alternative Routes of Iron Extraction |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 48 - Halide Metallurgy: Extraction of Ti, Zr, Hf, U, Si Purification |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 49 - Purification of Bulk Metals: Chemical Refining |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 50 - Chemical Refining: Purification of Lead |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 51 - Chemical Refining of Zinc, Tin, Nickel, Ti (Zr, Hf, Th) |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 52 - Physical Refining: Vacuum De-gassing, Zone Melting and Distillation |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 53 - Hydrometallurgy: Unit Steps, Leaching Reagents and Methods |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 54 - Physiochemical Aspect of Leaching, Bacterial Leaching, S/L Separation |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 55 - Hydrometallurgy: Solution Purification and Metal Ion Reduction |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 56 - Hydrometallurgy: Cementation, Electrowinning, Au Extraction and Bayer Process |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 57 - Electrometallurgy: Electrowinning, Electrorefining, Current and Energy Efficiency |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 58 - Electrometallurgy: Extraction of Mg and Al |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 59 - Environmental Concern and Sustainable Metal Extraction |
Link |
NOC:Principles of Extractive Metallurgy |
Lecture 60 - New Development in Metal Extraction: Solvometallurgy, Bio-Metallurgy, Membrane Technology |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 1 - Basic definitions |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 2 - Free energy, Stability, equilibrium in a unary system |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 3 - Effect of Pressure on equilibrium transformations: Clausius Clapeyron equation, phase diagram for unary system |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 4 - Free energy of solutions, free energy-composition diagrams |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 5 - Solution models, chemical potential |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 6 - Phase rule, free energy-composition diagrams and phase diagrams |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 7 - Evolution of phase diagrams |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 8 - Evolution of phase diagrams, miscibility gap |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 9 - To concept, partition less solidification |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 10 - To concept, partition less solidification (Continued...) |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 11 - Eutectic solidification, glass formation |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 12 - Kauzmann paradox, order of a transformation, glass forming ability |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 13 - Eutectic solidification, coupled growth, heterogeneous nucleation |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 14 - Peritectic solidification, metastable phase diagrams |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 15 - Errors in drawing phase diagrams, Fe-C vs. Fe-Fe3C phase diagram |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 16 - Free energy of undercooled liquid, shape of nucleus |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 17 - Solid state phase transformations - Precipitation |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 18 - Precipitation |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 19 - Precipitation - quasicrystals |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 20 - Precipitate coarsening, stability of a phase, spinodal decomposition |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 21 - Spinodal decomposition |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 22 - Eutectioid reaction |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 23 - Eutectioid reaction (Continued...) |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 24 - Bainitic transformation |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 25 - Kinetics of eutectoid transformations |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 26 - Martensitic Transformation |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 27 - Martensitic transformation, order-disorder transformation |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 28 - Miscibility gap in phase diagrams |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 29 - Phase diagram calculations |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 30 - Thermodynamics of heterogeneous systems |
Link |
Advanced Metallurgical Thermodynamics |
Lecture 31 - Thermodynamics of heterogeneous systems (Continued...) |
Link |
Materials Characterization |
Lecture 1 - Properties of light, Image formation |
Link |
Materials Characterization |
Lecture 2 - Magnification and resolution |
Link |
Materials Characterization |
Lecture 3 - Depth of field,focus and field of view |
Link |
Materials Characterization |
Lecture 4 - Lens defects,filters and light microscopy introduction |
Link |
Materials Characterization |
Lecture 5 - Optical microscope demo., Bright field imaging, opaque specimen illumination |
Link |
Materials Characterization |
Lecture 6 - Opaque stop microscopy, Phase contrast microscopy |
Link |
Materials Characterization |
Lecture 7 - Dark field microscopy, Polarization microscopy |
Link |
Materials Characterization |
Lecture 8 - Differential interference contrast and fluorescence microscopy |
Link |
Materials Characterization |
Lecture 9 - Sample preparation techniques for optical microscopy |
Link |
Materials Characterization |
Lecture 10A - Tutorial problems (Continuation...) |
Link |
Materials Characterization |
Lecture 10 - Tutorial problems |
Link |
Materials Characterization |
Lecture 11 - Introduction to scanning electron Microscopy |
Link |
Materials Characterization |
Lecture 12 - Lens aberrations, Object resolution, Image quality |
Link |
Materials Characterization |
Lecture 13 - Interaction between electrons and sample, Imaging capabilities, Structural analysis, Elemental analysis |
Link |
Materials Characterization |
Lecture 14 - SEM and its mode of operation, Effect of aperture size,Working distance,condenser lens strength |
Link |
Materials Characterization |
Lecture 15 - SEM and its mode of operation- continuation, Relation between probe current and probe diameter, Summary |
Link |
Materials Characterization |
Lecture 16 - Factors affecting Interaction volume, Demonstration of SEM |
Link |
Materials Characterization |
Lecture 17 - Image formation and interpretation |
Link |
Materials Characterization |
Lecture 18 - Image formation and interpretation continued, EDS, WDS |
Link |
Materials Characterization |
Lecture 19 - Special contrast mechanisms, Monte Carlo simulations of Interaction volume |
Link |
Materials Characterization |
Lecture 20 - Electron channeling contrast imaging (ECCI), Electron back scattered diffraction(EBSD)-Theory & instrument demonstration |
Link |
Materials Characterization |
Lecture 21 - Tutorial Problems on SEM |
Link |
Materials Characterization |
Lecture 22 - Basics of X-ray emission from source, electron excitation and X-ray interaction with materials in general |
Link |
Materials Characterization |
Lecture 23 - Properties of X-rays |
Link |
Materials Characterization |
Lecture 24 - Bragg's Law Derivation |
Link |
Materials Characterization |
Lecture 25 - Diffraction relationship with reciprocal space |
Link |
Materials Characterization |
Lecture 26 - X-ray scattering |
Link |
Materials Characterization |
Lecture 27 - Factors affecting intensities of X-ray peaks |
Link |
Materials Characterization |
Lecture 28 - Factors affecting intensities of X-ray peaks- continuation |
Link |
Materials Characterization |
Lecture 29 - Effect of crystallite size and strain on intensity of X-rays |
Link |
Materials Characterization |
Lecture 30 - Profile fit, Factors affecting peak brodening |
Link |
Materials Characterization |
Lecture 31 - Indexing of diffraction pattern, Quantitative analysis |
Link |
Materials Characterization |
Lecture 32 - Indexing, Quantitative analysis-continuation, Residual stress measurements |
Link |
Materials Characterization |
Lecture 33 - XRD and Residual stress measurement- lab demonstration |
Link |
Materials Characterization |
Lecture 34 - Introduction to Transmission Electron Microscopy (TEM) |
Link |
Materials Characterization |
Lecture 35 - Fundementals of Transmission Electron Microscopy (TEM) |
Link |
Materials Characterization |
Lecture 36 - Basics of Diffraction-1 |
Link |
Materials Characterization |
Lecture 37 - Basics of Diffraction-2 |
Link |
Materials Characterization |
Lecture 38 - TEM imaging-1 |
Link |
Materials Characterization |
Lecture 39 - TEM imaging-2 |
Link |
Materials Characterization |
Lecture 40 - TEM instrument demonstration |
Link |
Materials Characterization |
Lecture 41 - TEM sample preparation-1 |
Link |
Materials Characterization |
Lecture 42 - TEM sample preparation-2 |
Link |
Materials Characterization |
Lecture 43 - XRD Tutorial - 1 |
Link |
Materials Characterization |
Lecture 44 - XRD tutorial - 2 |
Link |
Materials Characterization |
Lecture 45 - TEM Tutorial - 1 |
Link |
Materials Characterization |
Lecture 46 - TEM Tutorial - 2 |
Link |
Materials Characterization |
Lecture 47 - Quantitative metallography - Tutorial 1 |
Link |
Materials Characterization |
Lecture 48 - Quantitative metallography - Tutorial 2 |
Link |
Materials Characterization |
Lecture 49 - Quantitative metallography - Tutorial 3 |
Link |
Materials Characterization |
Lecture 50 - Quantitative metallography - Tutorial 4 |
Link |
Materials Characterization |
Lecture 51 - Quantitative metallography - Tutorial 5 |
Link |
Materials Characterization |
Lecture 52 - Quantitative metallography - Tutorial 6 |
Link |
Materials Characterization |
Lecture 53 - Quantitative metallography - Tutorial 7 |
Link |
Physics of Materials |
Lecture 1 - Introduction |
Link |
Physics of Materials |
Lecture 2 - Properties of Materials |
Link |
Physics of Materials |
Lecture 3 - Thermal Expansion |
Link |
Physics of Materials |
Lecture 4 - Measuring Electrical Conductivity: DC and AC |
Link |
Physics of Materials |
Lecture 5 - Free Electron Gas |
Link |
Physics of Materials |
Lecture 6 - The Ideal Gas |
Link |
Physics of Materials |
Lecture 7 - Drude Model: Electrical Conductivity |
Link |
Physics of Materials |
Lecture 8 - Drude Model: Thermal Conductivity |
Link |
Physics of Materials |
Lecture 9 - Drude Model: Successes and Limitations |
Link |
Physics of Materials |
Lecture 10 - Drude Model: Source of Shortcomings |
Link |
Physics of Materials |
Lecture 11 - Large Systems and Statistical Mechanics |
Link |
Physics of Materials |
Lecture 12 - Maxwell Boltzmann Statistics |
Link |
Physics of Materials |
Lecture 13 - Classical Particles and Quantum Particles |
Link |
Physics of Materials |
Lecture 14 - History of Quantum Mechanics - 1 |
Link |
Physics of Materials |
Lecture 15 - History of Quantum Mechanics - 2 |
Link |
Physics of Materials |
Lecture 16 - Introduction to Drude Sommerfeld model |
Link |
Physics of Materials |
Lecture 17 - Fermi-Dirac Statistics - Part 1 |
Link |
Physics of Materials |
Lecture 18 - Fermi-Dirac Statistics - Part 2 |
Link |
Physics of Materials |
Lecture 19 - Features of the Fermi Dirac Distribution Function |
Link |
Physics of Materials |
Lecture 20 - Maxwell-Boltzmann Distribution Vs Fermi-Dirac Distribution |
Link |
Physics of Materials |
Lecture 21 - Anisotropy and Periodic Potential in a Solid |
Link |
Physics of Materials |
Lecture 22 - Confinement and Quantization - Part 1 |
Link |
Physics of Materials |
Lecture 23 - Confinement and Quantization - Part 2 |
Link |
Physics of Materials |
Lecture 24 - Density of States |
Link |
Physics of Materials |
Lecture 25 - Fermi Energy, Fermi Surface, Fermi Temperature |
Link |
Physics of Materials |
Lecture 26 - Electronic Contribution to Specific Heat at Constant Volume |
Link |
Physics of Materials |
Lecture 27 - Reciprocal Space-1: Introduction to Reciprocal Space |
Link |
Physics of Materials |
Lecture 28 - Reciprocal Space-2: Condition for Diffraction |
Link |
Physics of Materials |
Lecture 29 - Reciprocal Space-3: Ewald sphere, Simple Cubic, FCC and BCC in Reciprocal Space |
Link |
Physics of Materials |
Lecture 30 - Wigner Seitz Cell and Introduction to Brillouin Zones |
Link |
Physics of Materials |
Lecture 31 - Brillouin Zones, Diffraction, and Allowed Energy Levels |
Link |
Physics of Materials |
Lecture 32 - E Vs k, Brillouin Zones and the Origin of Bands |
Link |
Physics of Materials |
Lecture 33 - Calculating Allowed Energy Bands and Forbidden Band Gaps |
Link |
Physics of Materials |
Lecture 34 - Bands; Free Electron Approximation, Tight Binding Approximation |
Link |
Physics of Materials |
Lecture 35 - Semiconductors |
Link |
Physics of Materials |
Lecture 36 - Magnetic Properties |
Link |
Physics of Materials |
Lecture 37 - Electron Compounds; Phonons, Optoelectronic Materials |
Link |
Physics of Materials |
Lecture 38 - Superconductivity |
Link |
Physics of Materials |
Lecture 39 - Bose-Einstein Statistics |
Link |
Physics of Materials |
Lecture 40 - Physics of Nano Scale Materials; Course Summary |
Link |
Electronic materials, devices, and fabrication |
Lecture 1 - Metals, semiconductors and insulators |
Link |
Electronic materials, devices, and fabrication |
Lecture 2 - Introduction to semiconductors |
Link |
Electronic materials, devices, and fabrication |
Lecture 3 - Density of states and Fermi-Dirac statistics |
Link |
Electronic materials, devices, and fabrication |
Lecture 4 - Assignment 1 - Bonding, DOS, and Fermi statistics |
Link |
Electronic materials, devices, and fabrication |
Lecture 5 - Intrinsic semiconductors |
Link |
Electronic materials, devices, and fabrication |
Lecture 6 - Intrinsic semiconductors - conductivity |
Link |
Electronic materials, devices, and fabrication |
Lecture 7 - Assignment 2 - Intrinsic semiconductors |
Link |
Electronic materials, devices, and fabrication |
Lecture 8 - Extrinsic semiconductors |
Link |
Electronic materials, devices, and fabrication |
Lecture 9 - Extrinsic semiconductors - Fermi level |
Link |
Electronic materials, devices, and fabrication |
Lecture 10 - Extrinsic semiconductors - conductivity |
Link |
Electronic materials, devices, and fabrication |
Lecture 11 - Assignment 3 - Extrinsic semiconductors |
Link |
Electronic materials, devices, and fabrication |
Lecture 12 - Metal-semiconductor junctions |
Link |
Electronic materials, devices, and fabrication |
Lecture 13 - Assigment 4 - Metal-semiconductor junctions |
Link |
Electronic materials, devices, and fabrication |
Lecture 14 - pn junctions in equilibrium |
Link |
Electronic materials, devices, and fabrication |
Lecture 15 - pn junctions under bias |
Link |
Electronic materials, devices, and fabrication |
Lecture 16 - pn junction breakdown and heterojunctions |
Link |
Electronic materials, devices, and fabrication |
Lecture 17 - Assignment 5 - pn junctions |
Link |
Electronic materials, devices, and fabrication |
Lecture 18 - Transistors |
Link |
Electronic materials, devices, and fabrication |
Lecture 19 - MOSFETs |
Link |
Electronic materials, devices, and fabrication |
Lecture 20 - Assignment 6 - transistors |
Link |
Electronic materials, devices, and fabrication |
Lecture 21 - Optoelectronic devices: Introduction |
Link |
Electronic materials, devices, and fabrication |
Lecture 22 - Optoelectronic devices: LEDs |
Link |
Electronic materials, devices, and fabrication |
Lecture 23 - Optoelectronic devices: LASERs |
Link |
Electronic materials, devices, and fabrication |
Lecture 24 - Optoelectronic devices: photodetector |
Link |
Electronic materials, devices, and fabrication |
Lecture 25 - Optoelectronic devices: solar cells |
Link |
Electronic materials, devices, and fabrication |
Lecture 26 - Assignment 7 - optical properties |
Link |
Electronic materials, devices, and fabrication |
Lecture 27 - Assignment 8 - optoelectronic devices |
Link |
Electronic materials, devices, and fabrication |
Lecture 28 - Semiconductor manufacturing: Introduction |
Link |
Electronic materials, devices, and fabrication |
Lecture 29 - Si wafer manufacturing |
Link |
Electronic materials, devices, and fabrication |
Lecture 30 - IC device manufacturing: overview |
Link |
Electronic materials, devices, and fabrication |
Lecture 31 - Layering: thermal oxidation |
Link |
Electronic materials, devices, and fabrication |
Lecture 32 - Doping: thermal and ion implantation |
Link |
Electronic materials, devices, and fabrication |
Lecture 33 - Lithography |
Link |
Electronic materials, devices, and fabrication |
Lecture 34 - Etching and deposition (growth) |
Link |
Electronic materials, devices, and fabrication |
Lecture 35 - Metallization and polishing |
Link |
Electronic materials, devices, and fabrication |
Lecture 36 - Process and device evaluation |
Link |
Electronic materials, devices, and fabrication |
Lecture 37 - Productivity and process yield |
Link |
Electronic materials, devices, and fabrication |
Lecture 38 - Clean room design and contamination control |
Link |
Electronic materials, devices, and fabrication |
Lecture 39 - Devices and IC formation |
Link |
Electronic materials, devices, and fabrication |
Lecture 40 - IC circuit logic and packaging |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 1 - Properties of light, Image formation |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 2 - Magnification and resolution |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 3 - Depth of field, focus and field of view |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 4 - Lens defects, filters and light microscopy introduction |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 5 - Optical microscope demo., Bright field imaging, opaque specimen illumination |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 6 - Opaque stop microscopy, Phase contrast microscopy |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 7 - Dark field microscopy, Polarization microscopy |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 8 - Differential interference contrast and fluorescence microscopy |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 9 - Sample preparation techniques for optical microscopy |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 10 - Tutorial problems |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 11 - Tutorial problems (Continued...) |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 12 - Introduction to scanning electron Microscopy |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 13 - Lens aberrations, Object resolution, Image quality |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 14 - Interaction between electrons and sample, Imaging capabilities, Structural analysis, Elemental analysis |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 15 - SEM and its mode of operation, Effect of aperture size,Working distance,condenser lens strength |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 16 - SEM and its mode of operation- continuation, Relation between probe current and probe diameter, Summary |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 17 - Factors affecting Interaction volume, Demonstration of SEM |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 18 - Image formation and interpretation |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 19 - Image formation and interpretation continued, EDS, WDS |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 20 - Special contrast mechanisms, Monte Carlo simulations of Interaction volume |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 21 - Electron channeling contrast imaging (ECCI), Electron back scattered diffraction (EBSD)-Theory & instrument demonstration |
Link |
NOC:Fundamentals of optical and scanning electron microscopy |
Lecture 22 - Tutorial Problems on SEM |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 1 - Electronic Materials |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 2 - Semiconductors - Introduction |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 3 - Electron statistics in a solid |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 4 - Worked numericals on week 1 lessons |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 5 - Intrinsic semiconductors |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 6 - Intrinsic semiconductors - conductivity |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 7 - Optional - worked assignment on intrinsic semiconductors |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 8 - Extrinsic semiconductors - Introduction |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 9 - Extrinsic semiconductors - Fermi level |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 10 - Extrinsic semiconductors - Mobility |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 11 - Worked assignment on extrinsic semiconductors |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 12 - Metal-semiconductor junctions |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 13 - pn junctions in equilibrium |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 14 - Optional - worked assignment on metal-semiconductor junctions |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 15 - pn junctions under bias |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 16 - Junction breakdown and heterojunctions |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 17 - Worked assignment on pn junctions |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 18 - Transistors - overview |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 19 - MOSFETs |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 20 - Worked assignment on transistors |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 21 - Optoelectronic devices - Introduction |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 22 - Light emitting diodes |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 23 - Solid state semiconductor lasers |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 24 - Optional - worked assignment on optical properties |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 25 - Photodetectors |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 26 - Solar cells |
Link |
NOC:Fundamentals of electronic materials and devices |
Lecture 27 - Worked assignment on optoelectronic devices |
Link |
NOC:Introduction to Reciprocal Space and its use in Solids |
Lecture 1 - Reciprocal space; Definition and Properties |
Link |
NOC:Introduction to Reciprocal Space and its use in Solids |
Lecture 2 - Condition for Diffraction |
Link |
NOC:Introduction to Reciprocal Space and its use in Solids |
Lecture 3 - Worked out examples |
Link |
NOC:Introduction to Reciprocal Space and its use in Solids |
Lecture 4 - Ewald Sphere and lattices in reciprocal space |
Link |
NOC:Introduction to Reciprocal Space and its use in Solids |
Lecture 5 - Wigner Sietz cells and Brillouin Zones |
Link |
NOC:Introduction to Reciprocal Space and its use in Solids |
Lecture 6 - Worked out exmaples |
Link |
NOC:Introduction to Reciprocal Space and its use in Solids |
Lecture 7 - Brillouin Zones, Diffraction and allowed energy levels |
Link |
NOC:Introduction to Reciprocal Space and its use in Solids |
Lecture 8 - E Vs K, Brillouin zones and the Origin of Bands |
Link |
NOC:Introduction to Reciprocal Space and its use in Solids |
Lecture 9 - Week 3 Worked out examples |
Link |
NOC:Introduction to Reciprocal Space and its use in Solids |
Lecture 10 - Reciprocal space as Fourier transform of real lattice |
Link |
NOC:Introduction to Reciprocal Space and its use in Solids |
Lecture 11 - Alternate notation of reciprocal space |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 1 - Introduction to fusion welding processes: Part 1/2 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 2 - Introduction to fusion welding processes: Part 2/2 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 3 - Heat sources - Part 1/2 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 4 - Heat sources - Part 2/2 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 5 - Heat removal |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 6 - Thermal Modelling - Part 1/2 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 7 - Thermal Modelling - Part 2/2 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 8 - Zones in a weldment |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 9 - Analytical Solutions to Weld Thermal Field |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 10 - Conduction to Keyhole mode |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 11 - Fluid flow modelling - Part 1/2 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 12 - Fluid flow modelling - Part 2/2 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 13 - Solute transfer modelling - Part 1/2 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 14 - Solute transfer modelling - Part 2/2 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 15 - Solute segregation profile - Part 1/2 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 16 - Solute segregation profile - Part 2/2 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 17 - Microstructure Formation in Fusion Welds |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 18 - Numerical Solutions to Thermal Field and Fluid Flow in Welding - Part 1 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 19 - Numerical Solutions to Thermal Field and Fluid Flow in Welding - Part 2 |
Link |
NOC:Analysis and Modeling of Welding |
Lecture 20 - Dissimilar Welding |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 1 - Basics of X-ray emission from source, electron excitation and X-ray interaction with materials in general |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 2 - Properties of X-rays |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 3 - Bragg's law derivation |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 4 - Diffraction relationship with reciprocal space |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 5 - X-ray scattering |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 6 - Factors affecting intensities of X-ray peaks |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 7 - Factors affecting intensities of X-ray peaks (Continued...) |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 8 - Effect of crystallite size and strain on intensity of X-rays |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 9 - Profile fit, Factors affecting peak brodening |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 10 - Indexing of diffraction pattern, Quantitative analysis |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 11 - Indexing and Quantitative analysis-continuation, Residual stress measurements |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 12 - XRD and Residual stress measurement - lab demonstration |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 13 - XRD Tutorial - 1 |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 14 - XRD tutorial - 2 |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 15 - Introduction to Transmission Electron Microscopy (TEM) |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 16 - Fundamentals of Transmission Electron Microscopy (TEM) |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 17 - Basics of Diffraction - 1 |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 18 - Basics of Diffraction - 2 |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 19 - TEM Imaging - 1 |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 20 - TEM Imaging - 2 |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 21 - TEM instrument demonstration |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 22 - TEM sample preparation - 1 |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 23 - TEM sample preparation - 2 |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 24 - TEM Tutorial - 1 |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 25 - TEM Tutorial - 2 |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 26 - TEM Tutorial - 3 |
Link |
NOC:Fundamentals of X-ray Diffraction and Transmission Electron Microscopy |
Lecture 27 - TEM Tutorial - 4 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 1 - Visual optical method |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 2 - Dye Penetrant Testing - 1 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 3 - Dye Penetrant Testing - 2 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 4 - Dye Penetrant Testing - 3 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 5 - Dye Penetrant Testing - 4 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 6 - Magnetic particle testing - 1 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 7 - Magnetic particle testing - 2 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 8 - Magnetic particle testing - 3 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 9 - Magnetic particle testing - 4 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 10 - Magnetic particle testing - 5 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 11 - Eddy current testing - 1 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 12 - Eddy current testing - 2 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 13 - Eddy current testing - 3 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 14 - Eddy current testing - 4 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 15 - Eddy current testing - 5 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 16 - Ultrasonic testing - 1 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 17 - Ultrasonic testing - 2 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 18 - Ultrasonic testing - 3 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 19 - Ultrasonic testing - 4 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 20 - Ultrasonic testing - 5 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 21 - Ultrasonic testing - 6 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 22 - Ultrasonic testing - 7 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 23 - Ultrasonic testing - 8 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 24 - Ultrasonic testing - 9 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 25 - Ultrasonic testing - 10 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 26 - Acoustic Emission Testing - 1 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 27 - Acoustic Emission Testing - 2 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 28 - Acoustic Emission Testing - 3 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 29 - Acoustic Emission Testing - 4 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 30 - Acoustic Emission Testing - 5 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 31 - Radiography - 1 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 32 - Radiography - 2 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 33 - Radiography - 3 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 34 - Radiography - 4 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 35 - Radiography - 5 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 36 - Radiography - 6 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 37 - Radiography - 7 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 38 - Radiography - 8 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 39 - Radiography - 9 |
Link |
NOC:Theory and Practice of Non Destructive Testing |
Lecture 40 - Radiography - 10 |
Link |
NOC:Defects in Materials |
Lecture 1 - Introduction to defects in materials |
Link |
NOC:Defects in Materials |
Lecture 2 - 1-D Lattice |
Link |
NOC:Defects in Materials |
Lecture 3 - 2-D Lattice |
Link |
NOC:Defects in Materials |
Lecture 4 - 3-D Lattice - a |
Link |
NOC:Defects in Materials |
Lecture 5 - 3-D Lattice - b |
Link |
NOC:Defects in Materials |
Lecture 6 - 3-D Lattice - c |
Link |
NOC:Defects in Materials |
Lecture 7 - 3-D Crystals |
Link |
NOC:Defects in Materials |
Lecture 8 - Types of Point Defects |
Link |
NOC:Defects in Materials |
Lecture 9 - Vacancy Concentration Determination - 1 |
Link |
NOC:Defects in Materials |
Lecture 10 - Vacancy Concentration Determination - 2 |
Link |
NOC:Defects in Materials |
Lecture 11 - Point Defect Interstitial |
Link |
NOC:Defects in Materials |
Lecture 12 - Transforamtion of co-ordinates |
Link |
NOC:Defects in Materials |
Lecture 13 - Tensor - 1 |
Link |
NOC:Defects in Materials |
Lecture 14 - Tensor - 2 |
Link |
NOC:Defects in Materials |
Lecture 15 - Strain |
Link |
NOC:Defects in Materials |
Lecture 16 - Stress |
Link |
NOC:Defects in Materials |
Lecture 17 - Description of Dislocation - 1 |
Link |
NOC:Defects in Materials |
Lecture 18 - Description of Dislocation - 2 |
Link |
NOC:Defects in Materials |
Lecture 19 - Stress field around Dislocation |
Link |
NOC:Defects in Materials |
Lecture 20 - Self Energy of Dislocation |
Link |
NOC:Defects in Materials |
Lecture 21 - Force on Dislocation |
Link |
NOC:Defects in Materials |
Lecture 22 - Forces Between Dislocation |
Link |
NOC:Defects in Materials |
Lecture 23 - Chemical Force on Dislocation |
Link |
NOC:Defects in Materials |
Lecture 24 - Perfect Dislocation in FCC Structures |
Link |
NOC:Defects in Materials |
Lecture 25 - Instrinsic Stacking Faults in FCC |
Link |
NOC:Defects in Materials |
Lecture 26 - Extrinsic Faults and Thompson Tetrahedron in FCC |
Link |
NOC:Defects in Materials |
Lecture 27 - Dislocations in BCC and HCP |
Link |
NOC:Defects in Materials |
Lecture 28 - Dislocations in Ordered Alloys and Dislocation Dislocation Interaction |
Link |
NOC:Defects in Materials |
Lecture 29 - Twinning - 1 |
Link |
NOC:Defects in Materials |
Lecture 30 - Twinning - 2 |
Link |
NOC:Defects in Materials |
Lecture 31 - Martensitic Transformation - 1 |
Link |
NOC:Defects in Materials |
Lecture 32 - Martensitic Transformation - 2 |
Link |
NOC:Defects in Materials |
Lecture 33 - Interfaces - 1 |
Link |
NOC:Defects in Materials |
Lecture 34 - Interfaces - 2 |
Link |
NOC:Defects in Materials |
Lecture 35 - Defect Interaction and Strength |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 1 - Method of Stereology |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 2 - Volume Fraction and Particle Size - Part 1 |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 3 - Volume Fraction and Particle Size - Part 2 |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 4 - Geometric Probability - Part 1 |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 5 - Geometric Probability - Part 2 |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 6 - Probability Distributions |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 7 - Volume Fraction and Particle Size - Part 3 |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 8 - Volume Fraction and Particle Size - Part 4 |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 9 - Geometrical Probability - I |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 10 - Geometrical Probability - II |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 11 - Basic Stereological Parameters - Part 1 |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 12 - Basic Stereological Parameters - Part 2 |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 13 - Counting of grains and particles - Part 1 |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 14 - Description of Polycrystalline Microstructures derived measures |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 15 - Counting of grains and particles - Part 2 |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 16 - Counting of Grains and Particles - Part 3 |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 17 - Counting of Grains and Particles - Part 4 |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 18 - Other Applications of the Disector |
Link |
NOC:Elementary Stereology for Quantitative Metallography |
Lecture 19 - Stereology of Anisotropic Microstructures |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 1 - Introduction to the course, Introduction to physical metallurgy of steels |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 2 - Martensitic transformation, Introduction to modern automotive steels |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 3 - Introduction to modern automotive steels |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 4 - Introduction to advanced high strength steels |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 5 - Introduction to Dual Phase Steel and TRIP Steel Heat Treatments |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 6 - Thermal and Mechanical Processing of TRIP and Hot Forming Steels |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 7 - Introduction to Welding Processes in Automotive Industries |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 8 - Principles of Resistance Spot Welding (RSW) |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 9 - Process Characteristics of Resistance Spot Welding - Part I |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 10 - Process Characteristics of Resistance Spot Welding - Part II |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 11 - Introduction to Laser Beam Welding - Part I |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 12 - Introduction to Laser Beam Welding - Part II |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 13 - Principles of Gas Metal Arc Welding - Part I |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 14 - Principles of Gas Metal Arc Welding - Part II |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 15 - Welding Metallurgy of Advanced High Strength Steels - Part I |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 16 - Microstructural Evolution During Welding of Advanced High Strength Steels |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 17 - Elemental Behaviour During Welding of Advanced High Strength Steels |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 18 - Quantification of Microstructural Constituents in Automotive Steel Welds - Part I |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 19 - Quantification of Microstructural Constituents in Automotive Steel Welds - Part II and Mechanical Properties |
Link |
NOC:Welding of Advanced High Strength Steels for Automotive Applications |
Lecture 20 - Methodologies to Improve the Weldability of Advanced High Strength Steels |
Link |
NOC:Welding Processes |
Lecture 1 - Introduction to the course |
Link |
NOC:Welding Processes |
Lecture 2 - Classification of welding processes and definition of welding arc |
Link |
NOC:Welding Processes |
Lecture 3 - Physics of welding arc - Part 1 |
Link |
NOC:Welding Processes |
Lecture 4 - Physics of welding arc - Part 2 |
Link |
NOC:Welding Processes |
Lecture 5 - Physics of welding arc - Part 3 |
Link |
NOC:Welding Processes |
Lecture 6 - Physics of welding arc - Part 4 |
Link |
NOC:Welding Processes |
Lecture 7 - Fundamentals of ionisation in welding arc |
Link |
NOC:Welding Processes |
Lecture 8 - Electrical conductivity of welding arc |
Link |
NOC:Welding Processes |
Lecture 9 - Electrical resistivity of welding arc |
Link |
NOC:Welding Processes |
Lecture 10 - Heat transfer inside the arc |
Link |
NOC:Welding Processes |
Lecture 11 - Arc ignition mechanisms Part - I |
Link |
NOC:Welding Processes |
Lecture 12 - Arc ignition mechanisms Part - II |
Link |
NOC:Welding Processes |
Lecture 13 - Principles of Gas Tungsten Arc Welding |
Link |
NOC:Welding Processes |
Lecture 14 - Shielding gases for arc welding |
Link |
NOC:Welding Processes |
Lecture 15 - Selection of shielding gases for engineering alloys |
Link |
NOC:Welding Processes |
Lecture 16 - Arc welding power sources - Part 1 |
Link |
NOC:Welding Processes |
Lecture 17 - Arc welding power sources - Part 2 |
Link |
NOC:Welding Processes |
Lecture 18 - Arc welding power sources - Part 3 |
Link |
NOC:Welding Processes |
Lecture 19 - Variations in GTAW process |
Link |
NOC:Welding Processes |
Lecture 20 - Square wave, variable polarity, GTAW with filler, hot wire GTAW |
Link |
NOC:Welding Processes |
Lecture 21 - Dual gas GTAW and Plasma Welding processes |
Link |
NOC:Welding Processes |
Lecture 22 - Multi cathode GTAW and Activated GTAW |
Link |
NOC:Welding Processes |
Lecture 23 - Buried GTAW and Rate controlling parameters of GTAW |
Link |
NOC:Welding Processes |
Lecture 24 - Introduction to consumable welding processes |
Link |
NOC:Welding Processes |
Lecture 25 - Melting rate of consumable wires |
Link |
NOC:Welding Processes |
Lecture 26 - Physics of droplet transfer in consumable welding |
Link |
NOC:Welding Processes |
Lecture 27 - Modes of droplet transfer - Part 1 |
Link |
NOC:Welding Processes |
Lecture 28 - Modes of droplet transfer - Part 2 |
Link |
NOC:Welding Processes |
Lecture 29 - Modes of droplet transfer - Part 3 |
Link |
NOC:Welding Processes |
Lecture 30 - Shielded Metal Arc Welding |
Link |
NOC:Welding Processes |
Lecture 31 - Flux cored arc welding - Introduction |
Link |
NOC:Welding Processes |
Lecture 32 - Electrode fluxes and process characteristics of flux cored arc welding |
Link |
NOC:Welding Processes |
Lecture 33 - Flux cored arc welding - Process characteristics |
Link |
NOC:Welding Processes |
Lecture 34 - Advances in gas metal arc welding - Pulsed GMAW |
Link |
NOC:Welding Processes |
Lecture 35 - Advances in gas metal arc welding - Controlled dip short circuiting processes |
Link |
NOC:Welding Processes |
Lecture 36 - Submerged arc welding |
Link |
NOC:Welding Processes |
Lecture 37 - Resistance welding - Fundamentals |
Link |
NOC:Welding Processes |
Lecture 38 - Resistance spot welding - Part 1 |
Link |
NOC:Welding Processes |
Lecture 39 - Resistance spot welding - Part 2 |
Link |
NOC:Welding Processes |
Lecture 40 - Resistance spot welding - Part 3 |
Link |
NOC:Welding Processes |
Lecture 41 - Resistance spot welding - Part 4 |
Link |
NOC:Welding Processes |
Lecture 42 - Variants in resistance welding - Part 1 |
Link |
NOC:Welding Processes |
Lecture 43 - Variants in resistance welding - Part 2 |
Link |
NOC:Welding Processes |
Lecture 44 - Laser welding process - Introduction - Part 1 |
Link |
NOC:Welding Processes |
Lecture 45 - Laser welding process - Part 2 |
Link |
NOC:Welding Processes |
Lecture 46 - Laser welding process - Part 3 |
Link |
NOC:Welding Processes |
Lecture 47 - Laser welding process - Part 4 |
Link |
NOC:Welding Processes |
Lecture 48 - Electron beam welding process |
Link |
NOC:Welding Processes |
Lecture 49 - Other welding processes - Electroslag welding |
Link |
NOC:Welding Processes |
Lecture 50 - Magnetically Impelled Arc Butt (MIAB) welding |
Link |
NOC:Welding Processes |
Lecture 51 - Aluminothermic (thermit) welding |
Link |
NOC:Welding Processes |
Lecture 52 - Introduction to solid state welding processes - Friction welding |
Link |
NOC:Welding Processes |
Lecture 53 - Friction stir welding - Part 1 |
Link |
NOC:Welding Processes |
Lecture 54 - Friction stir welding - Part 2 |
Link |
NOC:Welding Processes |
Lecture 55 - Other solid state welding processes |
Link |
NOC:Welding Processes |
Lecture 56 - Joining processes for Plastics - Part 1 |
Link |
NOC:Welding Processes |
Lecture 57 - Joining processes for Plastics - Part 2 |
Link |
NOC:Welding Processes |
Lecture 58 - Adhesive bonding of plastics |
Link |
NOC:Welding Processes |
Lecture 59 - Welding nomenclatures |
Link |
NOC:Creep Deformation of Materials |
Lecture 1 - Importance of studying creep |
Link |
NOC:Creep Deformation of Materials |
Lecture 2 - Basics of plastic deformation and characteristics of dislocations - Part 1 |
Link |
NOC:Creep Deformation of Materials |
Lecture 3 - Basics of plastic deformation and characteristics of dislocations - Part 2 |
Link |
NOC:Creep Deformation of Materials |
Lecture 4 - Basics of plastic deformation and characteristics of dislocations - Part 3 |
Link |
NOC:Creep Deformation of Materials |
Lecture 5 - Creep and different factors that influence creep deformation - Part 1 |
Link |
NOC:Creep Deformation of Materials |
Lecture 6 - Creep and different factors that influence creep deformation - Part 2 |
Link |
NOC:Creep Deformation of Materials |
Lecture 7 - Creep and different factors that influence creep deformation - Part 3 |
Link |
NOC:Creep Deformation of Materials |
Lecture 8 - Creep and different factors that influence creep deformation - Part 4 |
Link |
NOC:Creep Deformation of Materials |
Lecture 9 - Creep and different factors that influence creep deformation - Part 5 |
Link |
NOC:Creep Deformation of Materials |
Lecture 10 - Creep and different factors that influence creep deformation - Part 6 |
Link |
NOC:Creep Deformation of Materials |
Lecture 11 - Mechanisms of Creep - Part 1 |
Link |
NOC:Creep Deformation of Materials |
Lecture 12 - Mechanisms of Creep - Part 2 |
Link |
NOC:Creep Deformation of Materials |
Lecture 13 - Mechanisms of Creep - Part 3 |
Link |
NOC:Creep Deformation of Materials |
Lecture 14 - Mechanisms of Creep - Part 4 |
Link |
NOC:Creep Deformation of Materials |
Lecture 15 - Mechanisms of Creep - Part 5 |
Link |
NOC:Creep Deformation of Materials |
Lecture 16 - Transitions in Creep Mechanisms and Creep Constitutive Equation |
Link |
NOC:Creep Deformation of Materials |
Lecture 17 - Deformation Mechanism Maps - Part 1 |
Link |
NOC:Creep Deformation of Materials |
Lecture 18 - Deformation Mechanism Maps - Part 2 |
Link |
NOC:Creep Deformation of Materials |
Lecture 19 - Modeling the Useful Creep Life of Materials/Components - Part 1 |
Link |
NOC:Creep Deformation of Materials |
Lecture 20 - Modeling the Useful Creep Life of Materials/Components - Part 2 |
Link |
NOC:Creep Deformation of Materials |
Lecture 21 - Modeling the Useful Creep Life of Materials/Components - Part 3 |
Link |
NOC:Creep Deformation of Materials |
Lecture 22 - Creep Testing Methods - Part 1 |
Link |
NOC:Creep Deformation of Materials |
Lecture 23 - Creep Testing Methods - Part 2 |
Link |
NOC:Creep Deformation of Materials |
Lecture 24 - Improving Creep Resistance of Materials |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 1 - Nanotechnology Science and Applications - Introduction |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 2 - Nanotechnology : A Walk through History |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 3 - Discussion on Feynman’s talk on Nanotechnology - Part I |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 4 - Discussion on Feynman’s talk on Nanotechnology - Part II |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 5 - Impact of the nanoscale on thermodynamic considerations |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 6 - Phase Diagrams and Stable Phases |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 7 - Calorimetry |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 8 - Zirconia - ZrO2 |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 9 - Experimentally Investigating the Hall-Petch relationship |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 10 - Impact of the Nanoscale on the Hall-Petch Relationship |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 11 - Impact of the nanoscale on Mechanical properties |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 12 - Superplasticity and the Nanoscale: Background |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 13 - Superplasticity and the Nanoscale: Experimental aspects |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 14 - Severe Plastic Deformation and the nanoscale: Experimental Utility |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 15 - An approach to prepare bulk nanostructures |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 16 - Nanosized Ferroelectrics |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 17 - Impact of the nanoscale on optical properties |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 18 - Experimental approach to study impact of the nanoscale on optical properties |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 19 - Impact of the nanoscale on optical properties: measurements |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 20 - Nanocomposites |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 21 - Effect of Nanoscale on Magnetic Properties: Potential use of biomaterials |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 22 - Effect of Nanostructure on Damping Properties |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 23 - Carbon |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 24 - Carbon Nanotubes |
Link |
NOC:Nanotechnology, Science and Applications |
Lecture 25 - Graphene, a 2D nanomaterials |
Link |
NOC:Powder Metallurgy |
Lecture 1 - Introduction to Powder Metallurgy |
Link |
NOC:Powder Metallurgy |
Lecture 2 - Powder Fabrication Methods: Mechanical Fabrication |
Link |
NOC:Powder Metallurgy |
Lecture 3 - Powder Fabrication Methods: Mechanical and Electrolytic Fabrication |
Link |
NOC:Powder Metallurgy |
Lecture 4 - Powder Fabrication Methods: Chemical Fabrication |
Link |
NOC:Powder Metallurgy |
Lecture 5 - Powder Fabrication Methods: Atomization |
Link |
NOC:Powder Metallurgy |
Lecture 6 - Gas atomization |
Link |
NOC:Powder Metallurgy |
Lecture 7 - Water Atomization |
Link |
NOC:Powder Metallurgy |
Lecture 8 - Centrifugal Atomization |
Link |
NOC:Powder Metallurgy |
Lecture 9 - Comparison of Atomization techniques |
Link |
NOC:Powder Metallurgy |
Lecture 10 - Nucleation and Growth |
Link |
NOC:Powder Metallurgy |
Lecture 11 - Thermodynamics and Kinetic of Solidification |
Link |
NOC:Powder Metallurgy |
Lecture 12 - Microstructure Control |
Link |
NOC:Powder Metallurgy |
Lecture 13 - Microstructure control: Effect of process parameters |
Link |
NOC:Powder Metallurgy |
Lecture 14 - Dendritic growth in pure metals |
Link |
NOC:Powder Metallurgy |
Lecture 15 - Dendritic growth in alloys |
Link |
NOC:Powder Metallurgy |
Lecture 16 - Crystalline and Amorphous structures |
Link |
NOC:Powder Metallurgy |
Lecture 17 - Crystalline vs Amorphous |
Link |
NOC:Powder Metallurgy |
Lecture 18 - T-T-T diagram: Formation of Amorphous solids |
Link |
NOC:Powder Metallurgy |
Lecture 19 - Effect of particle size on microstructure |
Link |
NOC:Powder Metallurgy |
Lecture 20 - Powder Characterization |
Link |
NOC:Powder Metallurgy |
Lecture 21 - Basis for particle size measurement |
Link |
NOC:Powder Metallurgy |
Lecture 22 - Measurement of particle size and size distribution |
Link |
NOC:Powder Metallurgy |
Lecture 23 - Particle size distribution |
Link |
NOC:Powder Metallurgy |
Lecture 24 - Dynamic Light Scattering - 1 |
Link |
NOC:Powder Metallurgy |
Lecture 25 - Dynamic Light Scattering - 2 |
Link |
NOC:Powder Metallurgy |
Lecture 26 - Particle size measurement - Other methods |
Link |
NOC:Powder Metallurgy |
Lecture 27 - Surface Area Analysis - 1 |
Link |
NOC:Powder Metallurgy |
Lecture 28 - Surface Area Analysis - 2 |
Link |
NOC:Powder Metallurgy |
Lecture 29 - BET Surface Area Analysis |
Link |
NOC:Powder Metallurgy |
Lecture 30 - Interparticle friction |
Link |
NOC:Powder Metallurgy |
Lecture 31 - Powder packing |
Link |
NOC:Powder Metallurgy |
Lecture 32 - Powder mixing and blending |
Link |
NOC:Powder Metallurgy |
Lecture 33 - Powder Lubrication and Coating |
Link |
NOC:Powder Metallurgy |
Lecture 34 - Powder compaction - 1 |
Link |
NOC:Powder Metallurgy |
Lecture 35 - Powder compaction - 2 |
Link |
NOC:Powder Metallurgy |
Lecture 36 - Powder compaction - 3 |
Link |
NOC:Powder Metallurgy |
Lecture 37 - Cold Isostatic Pressing and; Powder Injection Molding |
Link |
NOC:Powder Metallurgy |
Lecture 38 - Powder Injection Molding - 2 |
Link |
NOC:Powder Metallurgy |
Lecture 39 - Slurry Techniques |
Link |
NOC:Powder Metallurgy |
Lecture 40 - Tape casting |
Link |
NOC:Powder Metallurgy |
Lecture 41 - Sintering - 1 |
Link |
NOC:Powder Metallurgy |
Lecture 42 - Sintering - 2 |
Link |
NOC:Powder Metallurgy |
Lecture 43 - Sintering - 3 |
Link |
NOC:Powder Metallurgy |
Lecture 44 - Sintering - 4 |
Link |
NOC:Powder Metallurgy |
Lecture 45 - Sintering - 5 |
Link |
NOC:Powder Metallurgy |
Lecture 46 - Sintering - 6 |
Link |
NOC:Powder Metallurgy |
Lecture 47 - Sintering - 7 |
Link |
NOC:Powder Metallurgy |
Lecture 48 - Sintering - 8 |
Link |
NOC:Powder Metallurgy |
Lecture 49 - Sintering - 9 |
Link |
NOC:Powder Metallurgy |
Lecture 50 - Sintering - 10 |
Link |
NOC:Powder Metallurgy |
Lecture 51 - Liquid Phase Sintering - 1 |
Link |
NOC:Powder Metallurgy |
Lecture 52 - Liquid Phase Sintering - 2 |
Link |
NOC:Powder Metallurgy |
Lecture 53 - Liquid Phase Sintering - 3 |
Link |
NOC:Powder Metallurgy |
Lecture 54 - Liquid Phase Sintering - 4 |
Link |
NOC:Powder Metallurgy |
Lecture 55 - Liquid Phase Sintering - 5 |
Link |
NOC:Powder Metallurgy |
Lecture 56 - Full Density Processing - 1 |
Link |
NOC:Powder Metallurgy |
Lecture 57 - Full Density Processing - 2 |
Link |
NOC:Powder Metallurgy |
Lecture 58 - Full Density Processing - 3 |
Link |
NOC:Powder Metallurgy |
Lecture 59 - Full Density Processing - 4 |
Link |
NOC:Powder Metallurgy |
Lecture 60 - Spark Plasma Sintering (SPS) |
Link |
NOC:Carbon Materials and Manufacturing |
Lecture 1 - Introduction to Materials and Manufacturing |
Link |
NOC:Carbon Materials and Manufacturing |
Lecture 2 - Mathematical Representation of Material Properties |
Link |
NOC:Carbon Materials and Manufacturing |
Lecture 3 - Story of Carbon: Carbon on Earth and in Outer Space |
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NOC:Carbon Materials and Manufacturing |
Lecture 4 - Story of Carbo |