Lecture 1 - Brief Review of Linear Structural Analysis
Lecture 2 - Brief Review of Linear Structural Analysis (Continued...)
Lecture 3 - Stiffness Method of Structural Analysis
Lecture 4 - Beam-Column Element
Lecture 5 - Truss Element, Structural Stiffness Matrix, and Solution Procedure
Lecture 6 - Examples
Lecture 7 - Examples
Lecture 8 - Examples
Lecture 9 - Introduction of Nonlinear Structural Analysis
Lecture 10 - Sources of Nonlinearities and the Levels of Structural Analysis
Lecture 11 - Levels of Structural Analysis (Continued...)
Lecture 12 - Levels of Structural Analysis (Continued...)
Lecture 13 - Overview of Solution Strategies
Lecture 14 - Example
Lecture 15 - Elasto-Plastic Behaviour of Materials
Lecture 16 - Idealisation of Stress-Strain Curves
Lecture 17 - Hardening Rules
Lecture 18 - EPP, BP and Ramberg-Osgood Hysteretic Models
Lecture 19 - Giuffré-Menegotto-Pinto (GMP) Hysteretic Model
Lecture 20 - Bouc-Wen Hysteretic Model
Lecture 21 - Hysteretic Models for Concrete
Lecture 22 - Flexural Yielding of Structural Steel Sections
Lecture 23 - Flexural Yielding of Structural Steel Sections (Continued...)
Lecture 24 - Moment-Curvature Analysis of Steel Sections
Lecture 25 - P-M Interaction Curves for Steel Sections
Lecture 26 - P-M Interaction Curves for Steel Sections (Continued...)
Lecture 27 - Flexural Behaviour of Reinforced Concrete Sections
Lecture 28 - Moment-Curvature Analysis of RC Sections
Lecture 29 - P-M Interaction and Behaviour of RC Sections Under Cyclic Loading
Lecture 30 - Brief Review of Continuum Mechanics
Lecture 31 - Brief Review of Continuum Mechanics (Continued...)
Lecture 32 - Brief Review of Continuum Mechanics (Continued...)
Lecture 33 - Yield Criteria
Lecture 34 - Yield Criteria (Continued...)
Lecture 35 - Key Concepts of Plasticity Theory
Lecture 36 - Examples on EPP Material Behaviour
Lecture 37 - Strain Hardening
Lecture 38 - Concept of Stress-Resultant Plasticity
Lecture 39 - Concept of Stress-Resultant Plasticity (Continued...)
Lecture 40 - Concentrated Plasticity Approach for Modelling Lateral Load Resisting Systems (LLRS)
Lecture 41 - Concentrated Plasticity Approach for Modelling Lateral Load Resisting Systems (Continued...)
Lecture 42 - Distributed Plasticity Approach and Stiffness-Based Formulation
Lecture 43 - Flexibility-Based Formulation
Lecture 44 - Numerical Integration
Lecture 45 - Examples
Lecture 46 - Examples
Lecture 47 - Strain Softening Response and Plastic Hinge Integration Methods for FBEs
Lecture 48 - Geometric Nonlinear Analysis
Lecture 49 - Geometric Stiffness Matrices and Second-Order Analysis
Lecture 50 - P-(Big) Δ vs P-(Small) δ Contributions
Lecture 51 - Lateral Load Behaviour of Frames and Stability
Lecture 52 - Large-Displacement Analysis
Lecture 53 - Nonlinear Static Analysis
Lecture 54 - Displacement-Controlled Analysis
Lecture 55 - Displacement-Controlled Analysis (Continued...)
Lecture 56 - Constant Arc Length Methods
Lecture 57 - Some Fundamentals of Structural Dynamics
Lecture 58 - Some Fundamentals of Structural Dynamics (Continued...)
Lecture 59 - Direct Integration of Equations of Motion
Lecture 60 - Nonlinear Dynamic Analysis
Lecture 61 - Application of Nonlinear Structural Analysis: Evaluating Seismic Resiliency of Buildings with Supplemental Damper Systems
Lecture 62 - Nonlinear Structural Analysis: Multi-Physics - Structural Simulation with Supplemental Damper Systems
