- Introduction to Hypermesh
- Tool Bar and Menu Bar
- Open and save the file
- FEA (Finite Element Analysis)
- Strategic Planning
- The Art of Modeling
- Analysis Types
- Basic interaction with HyperMesh
- Shell meshing
- Preparing models for analysis
- Preparing geometry for meshing
- Creating hexa and penta mesh
- Tetra meshing
- Assemblies: welding and swapping parts
- Topology& Topography
- Size and shape optimization concepts
- Pre-processing using HyperMesh
- Linear static and normal mode anlysis
- Results visualization with HyperMesh
- Topology optimization
- Manufacturing constraints
- Combined Topology and Topography optimization
- Geometric Data Generation
- Shape Generation HyperMesh
- 2D and 3D shape optimization
- 1D and 2D size optimization
- Model clean up
- Meshing
- Static analysis
- Thermal analysis
- Optimization
1 .Introduction to Hypermesh
2 .Tool Bar and Menu Bar
3. Open and save the file
4. FEA (Finite Element Analysis)
5. Strategic Planning
- Planning the Solution
- Creating a Solution Checklist
- Boundary Conditions and Load Cases
- Linear Assumption
6. The Art of Modeling
- Consistent Units
- Understanding Element Behavior
- Element Selection
- Mesh Density and Solution Convergence
- Compatibility and Mechanisms
- Rigid Elements
- Fasteners
7. Analysis Types
- Static Analysis
- Stress Results
- Dynamics
- Buckling
- Presentation of Results
8. Basic interaction with HyperMesh
9. Shell meshing
- Automeshing – meshing on surface geometry
- Checking and editing mesh
- Batch meshing
10. Preparing models for analysis
- Creating boundary conditions
- Formatting for solvers
11. Preparing geometry for meshing
- Repairing surface topology
- Midsurfaces
- Defeaturing models
- Refining surface topology
12. Creating hexa and penta mesh
- Creating & editing solid geometry
- Creating hex mesh with the solid map panel