ANSYS Syllabus

Introduction to ANSYS Mechanical

• What is ANSYS? Overview and applications in mechanical engineering
• Importance of simulation and FEA (Finite Element Analysis) in engineering design
• Introduction to ANSYS Workbench & Mechanical interface – overview and navigation
• Installing ANSYS and performing basic setup

User Interface & Environment in ANSYS Mechanical

• Understanding Workbench project schematic & modules
• Mechanical window tools, trees, tabs, and controls
• Setting units and preferences for accurate simulations

Geometry Creation & CAD Handling

• Importing geometry from popular CAD software: NX, SolidWorks, CATIA
• Geometry cleanup and simplification for FEA
• Design Modeler and SpaceClaim basics for simulation-ready geometry

Finite Element Method (FEM) Fundamentals

• Introduction to FEA theory: nodes, elements, degrees of freedom (DOF)
• Types of elements: 1D, 2D, 3D
• Material properties and engineering data setup
• Mesh concepts, refinement strategies, and mesh quality control

Meshing in ANSYS Mechanical

• Basics of mesh generation
• Mesh controls: size, method, and skewness
• Adaptive and advanced meshing techniques
• Contact and element behavior for accurate simulation

Loads, Boundary Conditions & Connections

• Applying different types of loads: forces, moments, pressures
• Supports, constraints, and boundary condition setup
• Defining contacts, joints, and connections in assemblies

Static Structural Analysis

• Setting up static structural simulations
• Solving linear static problems
• Interpreting results: stress, deformation, factor of safety

Thermal Analysis

• Steady-state thermal analysis
• Transient thermal analysis
• Thermo-structural coupled simulations: how temperature affects structure

Dynamic Analysis

• Modal analysis – natural frequencies and mode shapes
• Harmonic response analysis for vibration studies
• Transient dynamic analysis: random vibration & response spectrum

Nonlinear Analysis

• Handling large deformations and material nonlinearities
• Contact and friction nonlinearities
• Plasticity and advanced material modeling

Advanced ANSYS Mechanical Topics

• Buckling analysis for structural stability
• Fatigue and life prediction studies
• Optimization and design studies
• Explicit dynamics for impact or crash modeling

Post-Processing & Result Interpretation

• Contour plots, vector plots, and result visualization
• Animation of simulation results
• Report generation, comparative studies, and result validation

Project Work & Case Studies

• Real-world simulation projects: beam bending, bracket analysis, bolted joints, and more
• Best practices and troubleshooting common simulation issues