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Course Outline
Getting Started with ANSYS Workbench
- Workbench project workflow and templates
- User interface, units, and data management
- Project schematics and cell states
Geometry Preparation and CAD Interoperability
- Importing CAD and healing geometry
- Basics of SpaceClaim/DesignModeler for defeaturing
- Name selections and part/body management
Engineering Data: Materials and Units
- Material libraries and custom material creation
- Linear elastic properties and temperature dependence (overview)
- Assigning materials and managing units
Meshing Fundamentals
- Element types, sizing controls, and relevance
- Local mesh refinement and inflation layers
- Mesh quality checks and best practices
Static Structural Analysis Setup
- Contacts, joints, and connections
- Loads, constraints, and boundary condition strategies
- Analysis settings, solver controls, and convergence
Solution, Post-Processing, and Interpretation
- Solving jobs, monitoring progress, and troubleshooting
- Stress, strain, deformation results and path/probe tools
- Result validation and common pitfalls
Parametric Studies and Design Exploration (Intro)
- Parameters, design points, and response tracking
- What-if studies and simple optimization concepts
- Reporting and exporting results
Summary and Next Steps
Requirements
- An understanding of fundamental engineering mechanics
- Experience with 3D CAD concepts or tool usage
- Basic familiarity with finite element analysis terminology
Audience
- Design and mechanical engineers beginning with simulation
- Technical analysts transitioning to ANSYS Workbench
- R&D professionals who need to validate product designs
35 Hours
