A detailed introduction to the Ansys Workbench course. The main theme of the course is to familiarize you with aspects of the theory of foreign economic activity and gradually move on to more effective methods of solving problems. In addition to obtaining results from Ansys Workbench, more emphasis is placed on validating these results and correlating them with physical conditions. At the beginning of each module, the theoretical aspect is first covered and then problems are solved using Ansys Workbench based on the theory. We will start with FEA theory where you will learn about the different ways to solve a particular problem and the logic behind most CAE codes/tools/software. Below is a brief description of the course and the various modules available in the course:
FEA/CAE theory
The purpose of this module is to introduce you to FEA/CAE.
- Understanding Problem Solving Techniques
- How does foreign economic activity work?
- Ansys Workbench user interface
Create materials using engineering data
Knowledge of creating materials in Ansys Workbench.
Import and export of materials
Model designer
The purpose of this module is to master CAD/geometric modeling.
Each option offered by Ansys Workbench provides extensive and in-depth training.
Introduction to Grid
Introduce the various options available in Ansys Workbench for meshing.
Linear static analysis of a structure
Theory of static analysis of structures
Understanding Loads and Boundary Conditions in CAE
Detailed overview of each boundary condition with examples
Project: Alan Key Analysis
Modal analysis
Modal Analysis Theory and Basic Equation
Examples of ribs, plates, prestressed wings.
Issue with participation level in advanced mods
Project: Modal analysis of frame structure
Buckling Analysis
Stability Analysis Theory
Column buckling with analytical correlation
Examples of connecting rod and movable tower
Nonlinear design analysis
Theory of nonlinear analysis
Types of nonlinearities
Nonlinear control analysis
Problems associated with nonlinearities
The dissolution temperature is
Theory of steady-state thermal analysis
CAE solutions and correlation with formulas
Problems with the thermal coil, rods
Transient thermal analysis
Transient Thermal Analysis Theory
Transient thermal analysis versus steady state thermal analysis
Project: Intake manifold
dynamic analysis
Types of structural analysis
Types of dynamic analysis
Explicit Analysis
Taylor test/impact cylinder
Parametric study of cylinder impact
Pipe Impact Analysis
Checking the correctness of the solution: energy error
Design/topology optimization
Introduction to Design Optimization
Example: Bridge Optimization
Example: C-clamp
Example: Page L
The last section is intended to clear your doubts. I will update this section with answers to all your questions.
What you will learn in the Advanced Introduction to ANSYS Workbench course:
- Ability to understand the theoretical aspects of FEA and the underlying logic of its implementation in commercial CAE codes such as Ansys Workbench.
- Create materials using engineering data and CAD/geometric modeling using Design Modeler.
- Capable of performing linear and nonlinear structural analysis and viewing results accordingly.
- Capable of performing and comparing various types of thermal analysis.
This course is suitable for people who:
- Students and professionals in the field of mechanical engineering, automotive engineering, aerospace engineering
- Anyone who wants to give their opinion on product validation