The course curriculum is prepared to meet the needs of the Simulation industry on Finite Element Meshing using Altair Hypermesh. ISIEINDIA | Hypermesh, finite element analysis, altair hypermesh, ansys , optistruct, altair hyperworks, shell meshing, 3d solid meshing, 1d meshing

Finite Element Analysis using Hypermesh

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Description

The course curriculum is prepared to meet the needs of the Simulation industry on Finite Element Meshing using Altair Hypermesh. The Solvers used for Finite Element Analysis along with Hypermesh are ANSYS and Optistruct. The basic fundamental theory of Finite Element Analysis and Engineering Design are also covered in this online course. After completing this course, you can join as a FE Analyst / CAE Engineer in the Simulation industry.

Altair HyperMesh is a high-performance finite element pre-processor to prepare even the largest models, starting from the import of CAD geometry to exporting an analysis run for various disciplines. Altair HyperMesh™ is a market-leading, multi-disciplinary finite element pre-processor which manages the generation of the largest, most complex models, starting with the import of CAD geometry to exporting ready-to-run solver file.

ISIEINDIA offers a complete Altair HyperWorks Online Training Courses portfolio which includes Finite Element Meshing using Hypermesh. Online Training Course Curriculum includes topics like Introduction to FEA & Hypermesh, Shell Meshing, 3D Solid Meshing, 1D Meshing, and Connectors.

Audience:

  • Undergraduate Students from Mechanical / Automobile / Production Engineering
  • Fresh Mechanical / Automobile / Production Engineers
  • ME / M Tech in Mechanical Engineering (Design / Production / Heat Power / Thermal Engg.) Student.
  • Designers, Design Engineers and Manufacturing Engineers who need a thorough knowledge of the features available in the Altair Hypermesh Software


Assignments:

Relevant models/input files will be given to the students which can be created with the help of the commands or features which are taught during the course. These model-based assignments will be carried out based on the complexity of the commands or features.

Case Studies:

Practical industrial examples will be considered as case studies where students will not only study the meshing technique involved to create a complex industrial mesh but also students will study the design considerations and methodologies involved in the creation of the mesh model. These case studies will be taught to students in detail and they will create the mesh under the guidance of the faculty.

Program outcomes
  • Develop proficiency in Analysis Types and Meshing Types

  • Geometry Cleaning

  • Creating Mid Surface

  • 2D Mesh Creation

  • 3D Mesh Creation

  • Establishing Connections


Requirements
  • Mobile/Laptop/Tablet with good internet connectivity.

Syllabus

  • 13 Lessons
  • 10:03:00 Hours
  • Types of Method to Solve Engineering Problem 00:30:00
  • Different Types of Analysis00:40:00
  • Case Study on Baja Roll Cage00:15:00
  • Case Study on Beams00:30:00
  • Case Study on Seating system Frame00:30:00
  • Introduction of 2D Mesh00:50:00
  • Case Study on Car Door Handle Meshing01:00:00
  • Case Study on BIW Arm Bracket01:00:00
  • Case Study on LH Inboard Cross Member01:00:00
  • Case Study on Plastics and Seat Cross Member02:00:00
  • Introduction of 3D Meshing00:15:00
  • Connection and Joints01:03:00
  • Keyboard Settings, Scripting00:30:00

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Student : 372 Students
Courses : 46 Courses

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