
Price
Duration
12400 Rs
20 Days
Introduction of Hypermesh
Hypermesh is a computer-aided design programme that simplifies the process of creating meshes for complicated models and making the meshed models needed for FEM analysis. The outcomes of FEM analysis support project designers in understanding how their products work under various loading conditions when they are in use. This course is the first step in learning about FEA meshing methods and how to clean up geometry once you send it to be analyzed. It talks about different ways to make meshes and how to fix errors in mesh quality.
Scope of Course Hypermesh
This course covers everything you need to know about Hypermesh to make meshes for designing products in various fields. When you're done, you'll know how to make meshes for complicated products and send meshes to various external solvers so you can run analyses on them. This course will give you valuable ideas and tools in your field. You will gain knowledge of the following through this course:
The basics of finite element analysis (FEA) and how to use it in structural design and analysis are covered.
Using Hypermesh geometric tools to create and edit nodes
Learn how to use 1D and 2D meshing techniques.
There are different kinds of meshing, such as hexa, shell, and tetra.
techniques of morphing and macrogeneration.
Career Prospects / Job Roles after Hypermesh
Companies hire people for the below-listed jobs so their products have suitable meshes for FEM analysis. Since no business can afford to deal with performance problems, they buy world-famous software such as Hypermesh and hire people for jobs like:
FEA Simulation Engineer
Hypermesh Stress Engineer
CAE Technical Lead and Support Engineer
Project
Design
and Meshing Engineer
Syllabus for Hypermesh Courses in Hyderabad
Session - 1
Introduction of FEM
Brief on Mesing
Basic interaction with Hypermesh
User interface
Opening/saving files
working with panels
model organization
Display control
Creating and editing line Data
Session - 2
Practise_1: how to Import diferent Geometry files like iges, stp, Fem and connectors.
Practise_2: creating nodes, lines and editing it.
Session - 3
Creating and editing Solid Geometry
Practise: Trim the solid using solid edit tools
Session - 4
Import and Repairing CAD
Mid surfaces Theory/Demo 120
simplifying geometry
Session - 5
Practise_1: Import and repair CAD files
Practise_2: Extracting Mid-surface.
Practise_3 Simplifying the geometry
Session - 6
Refining topology
Geometry and mesh editing using Quick Edit Panel
Practise: Spilting the Geometry, adding washers and mesh the Gemetry using quick edit panel
Session - 7
Shell meshing
Auto Meshing: meshing on surface geometry
Session - 8
Practise: Shell meshing on 2D surface component
Session - 9
Meshing without surfaces
2D Mesh in curved
QI Mesh Creation
Session - 10
practise_1 : Meshing the geometry using Ruled, spline, and line drag options.
Practise_2: Mesh on curved regions. Practise_3: Quality Index Mesh creation
Session - 11
Meshing a Model using Shrink Wrap
Tetra meshing
Method 1 – standard tetramesh
Method 2 – volume tetramesh
Checking tetra element quality
Remeshing tetra elements
Session - 12
Practise: Standard 3D Tetamesh
Session - 13
Creating hexa and penta mesh
Creating hex-penta mesh using surfaces
Creating hexahedral mesh with the solid map function
Session - 14
Practise: Create hexa and Penta mesh using element offset,linear solid and solidmap.
Session - 15
Quality
Checking and Editing Mesh
Practise: checking Element Quality, find elements Normals Deleting free edges
Session - 16
Assemblies: welding and swapping parts
Session - 17
Spot connectors
Area connectors
Bolt connectors
Part replacement
Practise: creating Spot,Area, and Bolt connectors
Defining composites
Session - 18
Formatting Model for analysis
Obtaining and assigning beam cross section properties using Hyper beam
setting up loading conditions
Practise : Create Component collector, material collector, Property collector, and define Cross section for beams
Session - 19
HyperMesh solver Interface
Session - 20
Setup model in Ansys
Setup model in Nx-Nastran
Practise: Ansys Solver Export in Hypermesh
Final Project
FAQs on Hypermesh Course
What is Hypermesh?
Hypermesh is a finite element analysis software used for the pre-processing and post-processing stages of 3D modeling and analysis. It is used for analyzing and optimizing the design of complex engineering products.
What are the features of Hypermesh?
Hypermesh features include automated meshing, material library, optimization tools, advanced visualization, FE model setup, and post-processing.
What is the use of Hypermesh?
Hypermesh is used for finite element analysis of complex engineering products, such as aircraft, cars, ships, and industrial machinery. It is also used for analyzing and optimizing the design of these products.
What is the file format of Hypermesh?
The Hypermesh file format is .hm which stands for Hypermesh file.
Is Hypermesh compatible with other CAD/CAE software?
Yes, Hypermesh is compatible with most CAD and CAE software, such as CATIA, SolidWorks, Pro/Engineer, and Ansys.
What types of analysis can be done in Hypermesh?
Hypermesh can be used for many types of analysis, including linear static, nonlinear static, linear dynamic, modal, buckling, and optimization.
What CAD formats are supported by Hypermesh?
Hypermesh supports a variety of CAD formats, including CATIA, Pro/ENGINEER, SolidWorks, AutoCAD, Unigraphics, Parasolid, and ACIS.
What are the system requirements for running Hypermesh?
Hypermesh requires a minimum of 2GHz processor, 4GB RAM, 2GB hard disk space, and a graphics card with OpenGL 2.1 or higher.
How can I get started with Hypermesh?
The best way to get started with Hypermesh is to take the Hypermesh Basics course or watch the tutorials on the Altair Learning Center.
What is Hypermesh used for?
Hypermesh is used for finite element analysis (FEA) to study the behavior of structures under different loads and boundary conditions.
How can I save my HyperMesh model?
To save your HyperMesh model, select File > Save As and select the appropriate file type for the model you are working with (e.g. .hm for HyperMesh models).
How can I export my HyperMesh model?
To export your HyperMesh model, select File > Export and select the appropriate file type for the model you are working with (e.g. .stl for 3D printing).
Your Instructor
Bhargava Krishna Marripati
Meet our experienced Mechanical CAD instructor, with over 8 years of industry experience in the field of Mechanical Design Engineering. With a background in both theoretical and practical applications of CAD software, our instructor is well-versed in all aspects of mechanical design, including 3D modeling, assembly, and analysis. Throughout their career, they have honed their skills in various CAD programs, including Solidworks, AutoCAD, Catia, and NX, just to name a few.
If you're looking for an experienced instructor to help you achieve your goals in the field of Mechanical CAD, look no further. Our instructor is committed to providing you with the skills and knowledge you need to succeed in the competitive world of Mechanical Design Engineering.

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