DESCRIPTION
ANSYS Workbench is the Numerical type of Engineerig problem-solving software.
– Used to simulate interactions of all disciplines of physics, structural,Vibration,Fluid Dynamics, Heat Transfer and Electromagnetic for engineers.
– This course covers the mechanical analysis using ANSYS workbench.
– The course is about to correlate the Lerner with actual engineering problems.
– Able to make understand the problem definition and solve it.
– The course basically covers the interface to ANSYS workbench for mechanical preference.
WHAT YOU WILL LEARN IN THIS COURSE
Learner will be able to work with different ANSYS analysis tools in workbench.
Learner will be able to determine how a product will function with different specifications.
Learner understand analyzing and solving complex mechanical problems.
Learner able to learn simulate engineering problems.
PREREQUISITES
Basic knowledge of CAD software.
Basic knowledge of machine design and strength of material.
Loaded ANSYS workbench on computer.
There is no need to know about ANSYS. Course training will covers all tasks.
WHO THIS COURSE IS FOR
Design Engineer
Civil Engineer
Mechanical Engineer
Structural Engineer
CAD CAM Expert
COURSE OUTLINE
Grid System Introduction of Ansys
- Intro to modelling
- GUI of ANSYS
- Material Handling & Definition (Customized Material settings)
- Intro to modelling
- Overview on meshing
- 1D meshing using ANSYS
- Solving Beam problems
- Basic physics behind the meshing
- Solid Modelling 2D & 3D
Structural Analysis (Static & Transient)
- Structural Analysis (Static & Transient)
- Theory of Materials, Different Analysis and Basic equations & Laws
- Complete Simulation Analysis on 3D Bodies
- Stress, Strain, Error, Factor of Safety and Deformation (Total & Directional)
- Results optimization and Report Generation
Section Properties: Thermal Analysis (Static & Transient)
- Thermal Analysis (Static & Transient)
- Thermodynamics Theories and Fourier Laws
- Conduction
- Convection
- Radiation
- Thermal and Mixed boundary Examples
Model Analysis
- Model Analysis
- Coupled Structure
- Joints
- Springs
- Assembly Structure Analysis
Meshing Theories (2D & 3D)
- Theories of Meshing and types
- Element Types (cont.)-properties, meshing
- 2D & 3D meshing
- Advanced meshing and Techniques
- Modelling Using Axisymmetric
- Element Types-classification, properties
- Finalizing FE model for Analysis
- Creating Quality Mesh
Computational Fluid Dynamics CFD Analysis (2D & 3D)
- Theory of Computational Fluid Dynamics
- CFD Post Analysis
- Fluent Analysis (2D & 3D)