Lecture 1 - Introduction of Strain and Stress Equilibrium
Lecture 2 - Introduction of Strain and Stress Equilibrium (Continued...)
Lecture 3 - Stress-Strain Relation
Lecture 4 - Plane Strain and Plane Stress Approximations
Lecture 5 - Introduction to Contact Mechanics
Lecture 6 - Loading on Elastic Half-Space
Lecture 7 - Distributed Normal Load and Shear Load on an elastic half space
Lecture 8 - Uniformly Distributed normal load on an elastic half space
Lecture 9 - Indentation on an elastic half-space using a curved bottom punch
Lecture 10 - Spatially varying normal load on an elastic half-space
Lecture 11 - Axi-symmetric loading on an elastic half space
Lecture 12 - Axi-symmetric loading on an elastic half space (Continued...)
Lecture 13 - Axi-symmetric loading on an elastic half space (Continued...)
Lecture 14 - Uniform loading on a triangular area of contact
Lecture 15 - Hertzian Mechanics
Lecture 16 - Hertzian Mechanics (Continued...)
Lecture 17 - Concepts of Surface and interfacial energy
Lecture 18 - Estimation of Surface and interfacial energy
Lecture 19 - Estimation of Surface and interfacial energy (Continued...)
Lecture 20 - Estimation of Surface and interfacial energy (Continued...)
Lecture 21 - Surface tension of liquid using Young's Equation
Lecture 22 - Indentation of an elastic half space with interaction
Lecture 23 - JKR contact mechanics between two spheres with adhesion
Lecture 24 - JKR contact mechanics between two spheres with adhesion (Continued...)
Lecture 25 - JKR contact mechanics between two spheres with adhesion (Continued...)
Lecture 26 - JKR contact mechanics between two cylinders
Lecture 27 - JKR contact mechanics between two cylinders (Continued...)
Lecture 28 - Estimation of adhesion hysteresis using rolling contact mechanics
Lecture 29 - Estimation of adhesion hysteresis using rolling contact mechanics (Continued...)
Lecture 30 - Adhesion of a rigid punch with convex head on an elastic half-space
Lecture 31 - Adhesion of a rigid punch with convex head on an elastic half-space (Continued...)
Lecture 32 - Indentation of an elastic half space using a concave indenter
Lecture 33 - Indentation of an elastic half space using a concave indenter: Comparison with a flat plate indenter
Lecture 34 - Numerical Problems on Indentation of an elastic half space using a concave indenter
Lecture 35 - Indentation of an elastic half space using a concave indenter having general ellipsoidal shape: Contact area splitting and multiple indenters
Lecture 36 - Multiplicity of indenters / Contact Area splitting: Adhesion between two rigid spheres and Effect of roughness
Lecture 37 - JKR vs. DMT model
Lecture 38 - Numerical Problems on JKR vs. DMT model
Lecture 39 - Thin, elastic film sandwiched between two rigid parallel plates
Lecture 40 - Thin, elastic film sandwiched between two rigid parallel plates (Continued...)
Lecture 41 - Thin, elastic film sandwiched between two rigid parallel plates (Continued...)
Lecture 42 - Estimation of load required to pull a rigid plate from a thin, elastic adhesive bonded system
Lecture 43 - Estimation of load required to pull a rigit plate from a thin, elastic adhesive bonded system (Continued...)
Lecture 44 - A thin elastic adhesive sandwiched between two parallel plates (perfect slippage at interface between adhesive and top surface)
Lecture 45 - A thin elastic adhesive sandwiched between two parallel disks (perfect slippage at interface between adhesive and top surface)
Lecture 46 - Adhesive layer sandwiched between two parallel disks
Lecture 47 - Peel experiment
Lecture 48 - Peel experiment (Continued...)
Lecture 49 - Bending of thin plate
Lecture 50 - Bending of thin plate (Continued...)
Lecture 51 - Lift-off experiment for measuring adhesion strength
Lecture 52 - Lift-off experiment for measuring adhesion strength (Continued...)
Lecture 53 - Lift-off experiment for measuring adhesion strength (Continued...)
Lecture 54 - Physical Mechanisms of Enhancing Adhesion without using Viscoelastic Effect
Lecture 55 - Physical Mechanisms of Enhancing Adhesion without using Viscoelastic Effect (Continued...)
Lecture 56 - Adhesive Layer with Spatially varying Thickness and Modulus
Lecture 57 - Adhesion of Viscoelastic Spheres
Lecture 58 - Adhesion of Vistoelastic Spheres (Continued...)
Lecture 59 - Adhesion on Rough Surface
Lecture 60 - Adhesion on a Randomly Rough Surface and Summary of the Course content covered
