ANSYS β Simulation & Analysis Course
Master Structural, Thermal & Flow Simulations for Real-World Engineering Solutions.
π§Ύ About Course
The ANSYS Simulation & Analysis Course at Elite CAD Computer Institute is designed to provide a deep understanding of Finite Element Analysis (FEA) and Computer-Aided Engineering (CAE) techniques used across industries for testing and validating product designs before manufacturing.
With ANSYS, engineers can simulate, analyze, and optimize product behavior under different physical conditions β such as stress, temperature, vibration, fluid flow, and electromagnetic fields β ensuring accuracy, safety, and efficiency in engineering design.
This course takes students from basic simulation principles to advanced analysis projects, enabling them to perform professional-level simulations using ANSYS Workbench.
Topic Covering
Introduction to Simulation & ANSYS
What is FEA, CAE, and Simulation?
Understanding ANSYS Workbench Environment
Types of Analysis: Structural, Thermal, CFD, Electromagnetic
File Management & Unit Systems
Geometry Creation & Import
Sketching & 3D Modeling in ANSYS DesignModeler
Importing Geometry from CAD Software (AutoCAD, SolidWorks, CATIA, Creo)
Geometry Cleanup & Repair Tools
Defining Named Selections and Parameters
Meshing Techniques
1D, 2D & 3D Meshing Concepts
Mesh Quality Parameters (Skewness, Aspect Ratio, Orthogonality)
Refinement, Inflation, and Mesh Control
Adaptive Meshing and Mesh Convergence Study
Structural Analysis
Static Structural Analysis
Applying Boundary Conditions & Loads
Stress, Strain, and Deformation Evaluation
Modal (Vibration) Analysis
Harmonic Response and Fatigue Life Estimation
Thermal Analysis
Steady-State and Transient Thermal Simulations
Applying Heat Sources, Convection, and Radiation
Thermal Stresses and Temperature Distribution
Coupled Thermal-Structural Analysis
CFD β Computational Fluid Dynamics (Basic)
Introduction to ANSYS Fluent
Flow Domain Setup and Boundary Conditions
Steady & Transient Flow Analysis
Pressure, Velocity, and Temperature Profiles
Flow Visualization and Result Interpretation
Nonlinear & Dynamic Analysis (Advanced)
Large Deformation and Material Nonlinearity
Contact Analysis between Components
Impact, Drop, and Time-Based Simulations
Result Interpretation & Reporting
Viewing Simulation Results
Graphs, Contour Plots, and Animations
Generating Simulation Reports and Documentation
Exporting and Comparing Results
Optimization & Design Validation
Sensitivity Analysis
Parametric Studies
Design Optimization using Goal-Driven Techniques
Correlating Simulation with Real Data
Final Project
Real-World Industrial Simulation Project
Structural + Thermal / Flow Integration
Result Review & Certification Evaluation
π― What You Will Learn?
By the end of this course, you will be able to:
Understand Fundamentals of FEA and CAE Analysis
Create geometric models and meshes for analysis
Perform Structural (Static, Dynamic, Modal) simulations
Conduct Thermal Analysis for heat distribution and dissipation
Execute Fluid Flow (CFD) simulations using ANSYS Fluent
Analyze Deformation, Stress, Strain, and Fatigue
Interpret results and generate professional engineering reports
Optimize designs using simulation-based validation
π Scope After this Course
Simulation and CAE engineers are in high demand in industries such as automotive, aerospace, civil structures, defense, electronics, and manufacturing.
After completing this course, you can pursue roles like:
π§βπ» Design & Simulation Engineer
βοΈ Finite Element Analyst (FEA Engineer)
π§° Structural / Thermal / CFD Analyst
π§ͺ Product Testing & Validation Engineer
𧩠Research and Development Engineer
π» Freelance Simulation Consultant
Top Hiring Sectors: Aerospace | Automotive | Oil & Gas | Power Plant | Civil Engineering | Consumer Goods | R&D Labs
πββοΈ Who Can Apply for This Course
This course is ideal for:
π Mechanical, Civil, and Electrical Engineering students
π§° Diploma, Polytechnic, and ITI students in design or analysis fields
π§βπΌ Working professionals in design, manufacturing, or structural analysis
π‘ Engineers who want to upgrade their skills in FEA/CAE tools
π Students preparing for industrial design or R&D roles
π Certification
After successful completion, students will be awarded a Professional Certificate in ANSYS Simulation & Analysis by Elite CAD Computer Institute.
This certification validates your expertise in CAE analysis and simulation-driven product development.
πΌ Career Opportunities
After the course, you can work as:
Simulation / Analysis Engineer
FEA / CFD Engineer
Product Validation Engineer
Mechanical Design Analyst
R&D Engineer
Freelance CAE Specialist
Industries Hiring ANSYS Experts:
Aerospace | Automotive | Energy | Electronics | Structural | Manufacturing | Research
π Why Choose Elite CAD Computer Institute?
π Expert Faculty with Industrial Simulation Experience
π» Hands-On Practice on Licensed ANSYS Software
𧩠Real-World Simulation Projects
π§ Concept-Oriented + Practical-Based Learning
πΌ Placement Support & Industrial Training Guidance
π§° Dedicated CAE Lab with High-Performance Systems
π Government & Industry Recognized Certification