ANSYS - Contents
ANSYSi training in west delhi
Module 1 - Introduction to ANSYS
- Overview of ANSYS software suite
- Installation and setup of the software
- Introduction to different ANSYS environments (Workbench, Fluent, Mechanical, etc.)
- User interface and navigation basics
Module 2 - Introduction to FEA (Finite Element Analysis)
- Basics of FEA
- Meshing concepts and techniques
- Types of analysis: Static, Dynamic, Thermal, etc.
- Boundary conditions and loading
- Post-processing of results (stress, displacement, etc.)
Module 3 - ANSYS Workbench
- Project schematic overview
- Working with different components (geometry, mesh, setup, solution, and results)
- Parametric studies and optimization
Module 4 - Geometry Creation and Import
- Introduction to DesignModeler or SpaceClaim (for geometry creation)
- Importing geometry from CAD software
- Simplification and cleaning of CAD models
- Creating sketches, extrusions, and revolutions
Module 5 - Meshing
- Introduction to meshing and its importance in FEA
- Types of elements (2D, 3D, shell, beam, etc.)
- Mesh quality criteria (aspect ratio, skewness, etc.)
- Global and local mesh control
Module 6 - Structural Analysis
- Steady-state thermal analysis
- Transient thermal analysis
- Thermal boundary conditions: convection, conduction, radiation
- Coupled thermal-structural analysis
Module 7 - Thermal Analysis
- Steady-state thermal analysis
- Transient thermal analysis
- Thermal boundary conditions: convection, conduction, radiation
Module 8 - Modal and Harmonic Analysis
- Modal analysis for natural frequency extraction
- Harmonic response analysis for vibration analysis
- Response spectrum and random vibration
Module 9 - Buckling Analysis
- Linear buckling analysis
- Nonlinear buckling analysis
- Post-buckling behavior
Module 10 - Introduction to CFD (Computational Fluid Dynamics)
- Introduction to ANSYS Fluent/CFX
- Fluid flow fundamentals
- Governing equations of fluid dynamics (Navier-Stokes)
- Meshing for CFD (structured/unstructured grids, inflation layers)
- Boundary conditions in CFD: inlet, outlet, walls
Module 11 - Fluid Flow Analysis (ANSYS Fluent/CFX)
- Laminar and turbulent flow analysis
- Pressure and velocity coupling schemes
- Multiphase flow modeling
- Heat transfer in fluids (convection, conduction)
- Compressible and incompressible flows
Module 12 - Electromagnetic Analysis (ANSYS Maxwell)
- Introduction to electromagnetic simulation
- Low and high-frequency electromagnetics
- Electromagnetic material properties
- Solving static, harmonic, and transient electromagnetic problems
Module 13 - Nonlinear Dynamics and Transient Analysis
- Time-varying loads and dynamic analysis
- Explicit vs implicit solvers
- Fatigue analysis and life prediction
- Shock and vibration analysis
Module 14 - Multiphysics Simulations
- Coupled field analysis (Thermal-Structural, Fluid-Structural Interaction)
- Piezoelectric analysis
- Fluid-thermal coupling
- Magneto-structural coupling
Module 15 - Optimization and Design Exploration
- Design of experiments (DOE)
- Sensitivity analysis
- Parameter optimization
- Goal-driven optimization
- Response surface methodology (RSM)
Module 16 - Customization and Scripting
- Introduction to ANSYS APDL (ANSYS Parametric Design Language)
- Scripting basics for automation
- Parametric modeling using APDL
- Custom result processing using APDL
Module 17 - Post-Processing and Report Generation
- Results visualization (contours, vector plots, animations)
- Interpretation of simulation results
- Generating reports and exporting data
- Customizing results using user-defined criteria
Module 18 - Optional / Advanced Topics
- Composite material analysis
- Fracture mechanics and crack propagation
- Fluid-Structure Interaction (FSI)
- Large deformations and contact problems
- Advanced turbulence modeling (RANS, LES, DES)
- Rotating machinery analysis (turbomachinery)
