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Keep shoppingANSYS Workbench Mastery: FEA Simulation
2 students
ANSYS Workbench Mastery: FEA Simulation
Industry Level ANSYS Workbench: FEA for Real Engineering Problems
Created bySushil Bhagat
Last updated 3/2026
English
What you'll learn
- Understand the ANSYS Workbench environment and create engineering geometry using Design Modeler for simulation-ready models.
- Apply different meshing techniques in ANSYS Workbench, including element sizing, refinement, and mesh quality control for accurate FEA results.
- Explain the theory of meshing methods and finite element discretization, and understand how mesh type influences simulation accuracy and convergence.
- erform thermal analysis, including 1-D temperature distribution and thermal stress analysis to evaluate heat transfer and thermal effects on structures.
- Conduct structural stress analysis using FEA, including 2D analysis of a plate with a hole to understand stress concentration and deformation behavior.
- Perform modal analysis of structures, including modal analysis of a cantilever beam and combined stress-modal analysis to study vibration characteristics.
- Define different types of mechanical connections in ANSYS, such as bonded, frictional, and contact connections, for realistic simulation of assemblies.
- Analyze complex engineering components, including helical spring stress and deflection analysis, welding strength analysis, and buckling analysis for structural
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Course content
4 sections • 19 lectures • 4h 1m total length
Requirements
- Basic mechanical engineering knowledge.
- No prior ANSYS experience required.
Description
Engineering simulation plays a critical role in modern product design and development. ANSYS Workbench is one of the most powerful tools used by engineers worldwide for Finite Element Analysis (FEA), structural analysis, and thermal simulation.
This course is designed to provide a practical and industry-oriented introduction to ANSYS Workbench, helping learners understand how to perform engineering simulations effectively.
In this course, you will start with the fundamentals of ANSYS Workbench, including Design Modeler and geometry preparation, followed by meshing techniques and meshing theory for accurate finite element analysis.
You will then learn how to perform different types of engineering simulations, including:
1-D Temperature Analysis
Structural Stress Analysis
2D FEA of Plate with Hole (Stress Concentration Study)
Modal Analysis of Cantilever Beam
Stress and Modal Analysis of Components
Types of Mechanical Connections in Assemblies
Stress and Deflection Analysis of Composite Helical Spring
Thermal Stress Analysis
Welding Strength Analysis
Buckling Analysis of Structures
The course focuses on hands-on simulation examples and practical engineering problems, allowing you to understand both the theory and application of FEA.
By the end of this course, you will have the confidence to perform engineering simulations using ANSYS Workbench and apply CAE techniques to real-world design problems.
This course is ideal for engineering students, design engineers, CAE beginners, and academicians who want to upgrade their skills in engineering simulation and finite element analysis.
Who this course is for:
- Mechanical and engineering students who want to learn FEA using ANSYS.
- Design and analysis engineers interested in simulation and structural analysis.
- Beginners who want to start a career in CAE and engineering simulation.
- Academicians and researchers who want to upgrade their skills in CAE and engineering simulation.