Modules / Lectures


Sl.No Chapter Name MP4 Download
1Lec 1 : Origin of nonlinearities - 1Download
2Lec 2 : Origin of nonlinearities - 2Download
3Lec 3 : Tensor and Tensor Algebra - 1Download
4Lec 4 : Tensor and Tensor Algebra - 2Download
5Lec 5 : Tensor and Tensor Algebra - 3Download
6Lec 6 : Tensor and Tensor Algebra - 4Download
7Lec 7 : Linearization and directional derivative, Tensor analysis - 1Download
8Lec 8 : Linearization and directional derivative, Tensor analysis - 2Download
9Lec 9 : Worked Examples - 1Download
10Lec 10 : Worked Examples - 2Download
11Lec 11 : Idea of Motion, Material and Spatial Descriptions, Deformation Gradient TensorDownload
12Lec 12 : Strain, Polar Decomposition - 1Download
13Lec 13 : Polar Decomposition - 2, Volume and Area ChangeDownload
14Lec 14 : Worked Examples, Linearized KinematicsDownload
15Lec 15 : Velocity, Acceleration, Material Time DerivativeDownload
16Lec 16 : Velocity Gradient, Rate of Deformation tensor, Area & Volume Rate, Reynolds Transport TheoremDownload
17Lec 17 : Conservation of Mass, Balance of Linear Momentum, Cauchy's Stress Principle - 1Download
18Lec 18 : Cauchy's Stress Principle - 2, Cauchy Stress TensorDownload
19Lec 19 : Objectivity, Stress Objectivity, Equilibrium Equations - 1Download
20Lec 20 : Equilibrium Equations - 2, Principle of Virtual WorkDownload
21Lec 21 : Work Conjugacy, First Piola-Kirchhoff Stress TensorDownload
22Lec 22 : Second Piola-Kirchhoff Stress Tensor, Decomposition of Stress - 1 Download
23Lec 23 : Decomposition of Stress - 2, Objective Stress MeasuresDownload
24Lec 26 : Constitutive relations and constraints, Hyperelasticity, Material elasticity tensorDownload
25Lec 27 : Spatial Elasticity Tensor, Solved ExampleDownload
26Lec 28 : Isotropic hyperelasticity - material and spatial description, Hyperelastic modelsDownload
27Lec 29 : Isotropic Hyperelasticity, Neo-Hookean Material Model, Solved ExamplesDownload
28Lec 30 : Introduction, Linearization Process OverviewDownload
29Lec 31 : Linearization of Internal Virtual Work and External Virtual WorkDownload
30Lec 32 : Discretization of Kinematic Quantities, Equilibrium EquationsDownload
31Lec 33 : Discretization of Linearized Equilibrium EquationsDownload
32Lec 34 : Newton Raphson MethodDownload
33Lec 35 : Line Search MethodDownload
34Lec 36 : Arc Length Method, Solved ExamplesDownload
35Lec 37 : FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - IntroductionDownload
36Lec 38 : FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - FormulationDownload
37Lec 39 : FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - FEMDownload
38Lec 40 : FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - ResultsDownload

Sl.No Chapter Name English
1Lec 1 : Origin of nonlinearities - 1Download
Verified
2Lec 2 : Origin of nonlinearities - 2Download
Verified
3Lec 3 : Tensor and Tensor Algebra - 1Download
Verified
4Lec 4 : Tensor and Tensor Algebra - 2Download
Verified
5Lec 5 : Tensor and Tensor Algebra - 3Download
Verified
6Lec 6 : Tensor and Tensor Algebra - 4Download
Verified
7Lec 7 : Linearization and directional derivative, Tensor analysis - 1Download
Verified
8Lec 8 : Linearization and directional derivative, Tensor analysis - 2Download
Verified
9Lec 9 : Worked Examples - 1Download
Verified
10Lec 10 : Worked Examples - 2Download
Verified
11Lec 11 : Idea of Motion, Material and Spatial Descriptions, Deformation Gradient TensorDownload
Verified
12Lec 12 : Strain, Polar Decomposition - 1Download
Verified
13Lec 13 : Polar Decomposition - 2, Volume and Area ChangeDownload
Verified
14Lec 14 : Worked Examples, Linearized KinematicsDownload
Verified
15Lec 15 : Velocity, Acceleration, Material Time DerivativeDownload
Verified
16Lec 16 : Velocity Gradient, Rate of Deformation tensor, Area & Volume Rate, Reynolds Transport TheoremDownload
Verified
17Lec 17 : Conservation of Mass, Balance of Linear Momentum, Cauchy's Stress Principle - 1Download
Verified
18Lec 18 : Cauchy's Stress Principle - 2, Cauchy Stress TensorDownload
Verified
19Lec 19 : Objectivity, Stress Objectivity, Equilibrium Equations - 1Download
Verified
20Lec 20 : Equilibrium Equations - 2, Principle of Virtual WorkDownload
Verified
21Lec 21 : Work Conjugacy, First Piola-Kirchhoff Stress TensorDownload
Verified
22Lec 22 : Second Piola-Kirchhoff Stress Tensor, Decomposition of Stress - 1 Download
Verified
23Lec 23 : Decomposition of Stress - 2, Objective Stress MeasuresDownload
Verified
24Lec 26 : Constitutive relations and constraints, Hyperelasticity, Material elasticity tensorDownload
Verified
25Lec 27 : Spatial Elasticity Tensor, Solved ExampleDownload
Verified
26Lec 28 : Isotropic hyperelasticity - material and spatial description, Hyperelastic modelsDownload
Verified
27Lec 29 : Isotropic Hyperelasticity, Neo-Hookean Material Model, Solved ExamplesDownload
Verified
28Lec 30 : Introduction, Linearization Process OverviewDownload
Verified
29Lec 31 : Linearization of Internal Virtual Work and External Virtual WorkDownload
Verified
30Lec 32 : Discretization of Kinematic Quantities, Equilibrium EquationsDownload
Verified
31Lec 33 : Discretization of Linearized Equilibrium EquationsDownload
Verified
32Lec 34 : Newton Raphson MethodDownload
Verified
33Lec 35 : Line Search MethodDownload
Verified
34Lec 36 : Arc Length Method, Solved ExamplesDownload
Verified
35Lec 37 : FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - IntroductionDownload
Verified
36Lec 38 : FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - FormulationDownload
Verified
37Lec 39 : FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - FEMDownload
Verified
38Lec 40 : FE Formulation of Ductile Fracture in Dynamic Elasto-Plastic Contact Problem - ResultsDownload
Verified


Sl.No Language Book link
1EnglishDownload
2BengaliNot Available
3GujaratiNot Available
4HindiNot Available
5KannadaNot Available
6MalayalamNot Available
7MarathiNot Available
8TamilNot Available
9TeluguNot Available