Altair Hypermesh Training
- Overview
- Course Content
- Drop us a Query
Hypermesh training course enables participants to work on Hypermesh 12.0 software, a computer aided engineering (CAE) simulations software platform. The training enables the trainees to create finite element models for analysis and prepare high-quality meshes in an efficient manner. This program offers the skills needed to work with geometry editing tools for preparing CAD models for the meshing process. During the Hypermesh training, the attendees will have knowledge about the BatchMeshing technique that facilitates users to mesh several files in the background to match the standards set by users.
By the end of the training, the participants will inculcate skills on the following topics:
- Finite Element Analysis (FEA)
- Shell, Tetra, and HyperMeshing
- Creating hexa and penta mesh
- Assemblies: Welding and Swapping Parts
- Topography and Topology
- Thermal, Static and Normal Mode analysis
- Preparing models for analysis and geometry for meshing
- Defining manufacturing constraints
- 2D and 3D shape optimization
- 1D and 2D size optimization
- Results visualization with HyperMesh
The students/professionals looking forward to create and review finite element models.
While there is no formal pre prerequisite for this training, however candidates with a strong interest in product design and engineering are the ideal participants for this course.
- 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
13. Tetra meshing
14. Assemblies: welding and swapping parts
15. Topology& Topography
16. Size and shape optimization concepts
17. Pre-processing using HyperMesh
18. Linear static and normal mode analysis
19. Results visualization with HyperMesh
20. Topology optimization
21. Manufacturing constraints
22. Combined Topology and Topography optimization
23. Geometric Data Generation
24. Shape Generation HyperMesh
25. 2D and 3D shape optimization
26. 1D and 2D size optimization
27. Model clean up
28. Meshing
29. Static analysis
30. Thermal analysis
31. Optimization
A Few Things You'll Love!
Certified & Industry Experts Trainers 
Multiple Training Delivery Models
Customize course
24/7 e-Learning Access
Assessments and Mock Tests
Advance Analytical Reports
Placement Assistance
