Computational Methods in Structural Mechanics
( 24 Modules )

Module #1
Introduction to Structural Mechanics
Overview of structural mechanics, importance of computational methods, and course objectives

Module #2
Basic Concepts in Structural Analysis
Review of statics, kinematics, and dynamics; introduction to structural elements and loads

Module #3
Mathematical Preliminaries
Linear algebra, vector calculus, and differential equations; review of numerical methods

Module #4
Finite Element Method (FEM) Fundamentals
Introduction to FEM, element types, interpolation functions, and stiffness matrices

Module #5
FEM for 1D Problems
Application of FEM to 1D structural elements (rods, beams, and frames)

Module #6
FEM for 2D Problems
Application of FEM to 2D structural elements (plates and shells)

Module #7
FEM for 3D Problems
Application of FEM to 3D structural elements (solids and continua)

Module #8
Gaussian Quadrature and Numerical Integration
Numerical integration techniques for finite element analysis

Module #9
Boundary Conditions and Load Applications
Implementation of boundary conditions and load applications in FEM

Module #10
Linear and Nonlinear Analysis
Linear and nonlinear analysis techniques, including iterative solution methods

Module #11
Eigenvalue Analysis
Vibration analysis and eigenvalue extraction using FEM

Module #12
Dynamic Analysis
Time-domain and frequency-domain dynamic analysis using FEM

Module #13
Stability Analysis
Stability analysis using eigenvalue buckling and nonlinear analysis

Module #14
Introduction to Other Computational Methods
Overview of other computational methods, including finite difference, boundary element, and meshless methods

Module #15
Computational Modeling and Simulation
Best practices for computational modeling and simulation in structural mechanics

Module #16
Verification and Validation
Verification and validation of computational models and simulations

Module #17
Uncertainty Quantification and Sensitivity Analysis
Uncertainty quantification and sensitivity analysis in computational structural mechanics

Module #18
High-Performance Computing for Structural Mechanics
Parallel computing and high-performance computing for large-scale structural mechanics simulations

Module #19
Case Studies in Structural Mechanics
Real-world applications and case studies of computational methods in structural mechanics

Module #20
Computer-Aided Design (CAD) and CAE Integration
Integration of CAD and CAE tools for structural analysis and design

Module #21
Structural Optimization
Structural optimization techniques using computational methods

Module #22
Machine Learning and Artificial Intelligence in Structural Mechanics
Applications of machine learning and AI in structural mechanics and materials

Module #23
Computational Materials Science and Mechanics
Computational materials science and mechanics:modeling and simulation of material behavior

Module #24
Course Wrap-Up & Conclusion
Planning next steps in Computational Methods in Structural Mechanics career

WIZAPE

ONLINE RESOURCES

ABOUT WIZAPE

ONLINE PORTAL

Our priority is to cultivate a vibrant community before considering the release of a token. By focusing on engagement and support, we can create a solid foundation for sustainable growth. Let’s build this together!

We're giving our website a fresh new look and feel! 🎉 Stay tuned as we work behind the scenes to enhance your experience.
Get ready for a revamped site that’s sleeker, and packed with new features. Thank you for your patience. Great things are coming!

CONTACT-US PRIVACY POLICY

Computational Methods in Structural Mechanics ( 24 Modules )

Computational Methods in Structural Mechanics
( 24 Modules )