SCCI Digital Library and Forum
Menu
Home
About Us
Video Library
eBooks
SCCI Forum
Home
»
Applied Sciences
»
Engineering
»
Mechanical Engineering (M-I-T)
»
Finite Element Procedures For Solids And Structures
»
Non-Linear Analysis (M-I-T)
Non-Linear Analysis (M-I-T)
S#
Lecture
Course
Institute
Instructor
Discipline
1
Lecture 10: Solution of Nonlinear Static FE Equations I (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
2
Lecture 11: Solution of Nonlinear Static FE Equations II (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
3
Lecture 12: Demonstrative Example Solutions in Static Analysis (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
4
Lecture 13: Solution of Nonlinear Dynamic Response I (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
5
Lecture 14: Solution of Nonlinear Dynamic Response II (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
6
Lecture 15: Elastic Constitutive Relations in T. L. Formulation (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
7
Lecture 16: Elastic Constitutive Relations in U. L. Formulation (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
8
Lecture 17: Modeling of Elasto-Plastic and Creep Response I (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
9
Lecture 18: Modeling of Elasto-Plastic and Creep Response II (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
10
Lecture 19: Beam, Plate, and Shell Elements I (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
11
Lecture 1: Introduction to Nonlinear Analysis (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
12
Lecture 20: Beam, Plate, and Shell Elements II (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
13
Lecture 21: Demonstration Using ADINA – Linear Analysis (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
14
Lecture 22: Demonstration Using ADINA – Nonlinear Analysis (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
15
Lecture 2: Basic Considerations in Nonlinear Analysis (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
16
Lecture 3: Lagrangian Continuum Mechanics Variables for Analysis (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
17
Lecture 4: Total Lagrangian Formulation – Incremental Analysis (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
18
Lecture 5: Updated Lagrangian Formulation – Incremental Analysis (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
19
Lecture 6: Formulation of Finite Element Matrices (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
20
Lecture 7: 2D & 3D Solid Elements; Plane Stress/Strain Conditions (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
21
Lecture 8: 2-Noded Truss Element – Updated Lagrangian Formulation (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
22
Lecture 9: 2-Noded Truss Element – Total Lagrangian Formulation (M-I-T)
Non-Linear Analysis (M-I-T)
MIT
Prof. Klaus-Jürgen Bathe
Applied Sciences
