System Perspective

OS Platform Windows XP Professional (32 or 64 bit version) Or Windows 7 (Service Pack 1) or higher versions of windows.
Physical Memory 2 GB RAM (minimum)
Disk Space for Installation 5 GB free disk space
Resolution 1280×1024 pixels (DEDICATED VIDEO MEMORY IS REQUIRED for Better performance)
Hypermesh Software

Altair HyperMeshTM

Student's Perspective

  • Concepts of 2D and 3D drawing.
  • Enthusiastic for converting one’s imagination in real time 3D model.
  • Theoretical FEA and FEM knowledge will be added advantage.

Course Content

Introduction: Hypermesh training course 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

Course Description

  1. Tool Bar and Menu Bar
  2. Open and save the file
  3. FEA (Finite Element Analysis)
  1. Planning the Solution
  2. Creating a Solution Checklist
  3. Boundary Conditions and Load Cases
  4. Linear Assumption
  1. Consistent Units
  2. Understanding Element Behavior
  3. Element Selection
  4. Mesh Density and Solution Convergence
  5. Compatibility and Mechanisms
  6. Rigid Elements
  7. Fasteners
  1. Static Analysis
  2. Stress Results
  3. Dynamics
  4. Buckling
  5. Presentation of Results

Basic interaction with HyperMesh

  1. Auto meshing – meshing on surface geometry
  2. Checking and editing mesh
  3. Batch meshing
  1. Creating boundary conditions
  2. Formatting for solvers
  1. Repairing surface topology
  2. Mid-surfaces
  3. De-featuring models
  4. Refining surface topology
  1. Creating & editing solid geometry
  2. Creating hex mesh with the solid map panel

Tetra Meshing

  • Assemblies: welding and swapping parts
  • Topology & Topography
  • Size and shape optimization concepts
  • Pre-processing using HyperMesh
  • Linear static and normal mode analysis
  • 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
  • Hands on Experience and demo includes industry based real time problems.

Course Outcomes

Upon completion of the Course, the student will be able to describe the functional capabilities and general usage of:

  • Geometry Clean-up
  • Shell Meshing
  • 3D Solid Meshing
  • 1D Meshing and Connectors
  • Morphing
  • Analysis Setup and Loading
  • Exporting and Solving


  • Capable of producing meshes that are high quality made with no complexity.
  • With comprehensive state of art technologies, evaluation and manufacturing, it reduces the development cost to manifolds.
  • Virtual testing and superb designing makes it safe and secure with minimized risk factor.
  • The test results obtained through virtual testing are valuable enough to facilitate collaborations and change decisions for further processes.
  • Attain accurate and high quality meshes in fractions of seconds, since it supports batch meshing which makes it possible to develop several meshes at once.
  • Comes with a built in automated supports which adds to its flexibility.
  • Precisely design and edit meshes within a small time frame to suit the user’s needs and match up or exceed their expectations.

Additional Benefit: Hands on Experience and demo includes industry based real time problems.