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What You Will Learn

  • Theory behind the FEA and FEM, and design process

  • Geometry clean-up/edition before extracting the mid-surface and Topology corrections

  • Mesh creation using 2D and 3D elements for different automotive components using Hypermesh

  • Quality parameters for 2D and 3D elements

About this Micro-Specialization

A comprehensive course on Pre-processing using Hypermesh for the CAE field. In this course, you will gain knowledge of the fundamentals of the Finite Element Analysis process. You will learn how to correct the geometry before extracting the mid surface and required topology correction. Mesh creation using 2D and 3D elements for different automotive parts (sheet metal and plastic) components along with this you will be learning how to correct the quality checks as per the industry standards. With this, you will be doing Linear static analysis using Optistruct solver and extracting the results.

Recent Placement

“I am really glad to share with you that I got placed in Sukhena Technologies, Thanks to Decobels lab, Suraj sir, and Thara ma'am for that. and about the course, I really enjoyed it, got industrial-related experience, Assignments, Projects, etc. I'm glad that I got enrolled for this Master course. The course was well structured and made it easy to learn and understand topics fast. Thanks to everyone for bringing me to this part.”

Placed in Sukhena Technologies

Vivek Uttam Rathod

Learning Modules

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Introduction to Hypermesh

Module 1

Introduction sections cover the topics such as the foundation to Finite Element Method & Analysis (FEM & FEA), simulation & analysis performed for automotive, aerospace, and commercial vehicles, standard finite element process, and the need for meshing, and career opportunities for CAE engineers. It also covers practical & hands-on training with Altair Hypermesh software. Topics covered such as Hypermesh GUI, HyperMesh desktop toolbars, menu bars, working with Visualization/Display/View Toolbars, and Organizing the model. By the end of Module 1, the learner will be able to use Altair Hypermesh Software & know the functionalities of the Hypermesh Toolbar.
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Geometry Edition for 2D parts

Module 2

Module 2 will cover topics such as geometry terminologies, geometry tools, usage of functional keys, introduction to surface clean-up, manual CAD clean-up using topology geometry edition, and geometry creation using surface tools. In continuation to geometry, you will learn the Mid-Surface Extraction Process for the components with complex features, Manual Mid Surface Generation, and Handling Symmetric Geometry. Learners will also get to work on surface edition tools for sheet metal and trim parts, and mid-surface extraction for variable thickness plastic parts. By the end of Module 2, the learner will be able to do all the necessary geometry cleanups, extracting the mid surface using different techniques and topology corrections.
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Introduction to 2D Meshing using Hypermesh

Module 3

Module 3 will cover topics such as 2D Meshing annotations, Element Selection, Mesh Density, and Solution Convergence. Basic thumb rules for meshing and Mesh Convergence Summary. Auto meshing and remeshing In this module you will be doing the meshing for small components (sheet metal and plastics). By the end of Module 3, the learner will have a clear knowledge of meshing and the elements used for meshing.
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Introduction to 2D Meshing for Trim (Plastic) parts using Hypermesh

Module 4

Module 4 will cover the 2D meshing with practice modules & projects. Topics such as the creation of 2D elements, Auto meshing, and remeshing. Capturing the geometry features using mesh deck tools, recreating the elements for an existing mesh area, along with various skills to achieve a good mesh flow. You will also learn how to create the elements on washers and geometry features and tria handlings for sheet metal components and commands used in mesh decks. In this module, you will be meshing different plastic components. By the end of Module 4, the learner will be able to do 2D meshing for different automotive components.
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2D meshing quality parameters

Module 5

Module 5 will cover Elements Quality for advanced 2D meshing components. Topics such as the reconstruction of existing elements using tools and manual surface creations. How to achieve a good quality of elements by capturing all the features and quality checks. Assigning the variable thickness for plastic components. By the end of Module 5, the learner can mesh complex 2D meshing like plastics and learn the industry standards to meet the quality checks.
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2D meshing for intricate components

Module 6

Module 6 will cover the topics such as clearing free edges, adjusting the normals, and the importance of duplicate elements. Assigning the materials and properties. Capturing the complex features for trim parts with minimum trias and mesh flow lines with good quality elements. Along with this, you will be learning the other imp necessary checks for completing the meshing. By the end of Module 6, the learner can mesh different 2D components of automotive parts like trim parts and advanced sheet metal parts and learn the industry standards to meet the required meshing standards.
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3D meshing using Hypermesh

Module 7

Module 7 will cover the need for 3D meshing, types of 3D elements, and usage of 3D Elements in automotive applications. The learner will build the tetra mesh using different tetra creation tools in Hypermesh, generating the volume tetra elements using different techniques, and maintaining the quality of tetra elements. Creating Hexa or Brick elements using different tools and techniques for given cad, volume mesh deck 3D quality parameters and checks. By the end of Module 7, the learner will be able to do the 3D meshing using Tetra and clear the quality of the elements with necessary checks.
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Linear Static Analysis using Altair OptiStruct

Module 8

Module 8 of the master course will focus on simulations. Learners will be taught to use the Altair optistruct solver where you will be learning the simple deck setup for static and dynamic analysis. Deck preparations like assigning the materials and properties, defining the boundary conditions and applying different loads, and output requests, and defining the control cards, for analysis using the Optistruct solver. Along with this, you will be learning the HyperView for reviewing and interpreting the required results and reporting the same. By the end of Module 8, the learner is able to plot the desired results and they can generate the end-to-end report file.
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Enroll now

  • Micro-Specialization in Automotive CAE

    Fee payment option: 20000 INR while enrolment & 30000 INR after the placement

    ₹49,999.00

    Buy Now

Certification program offered by

Globally valid

“Decibels Lab is a Gov. of India recognised start-up under Start-up India by Ministry of Commerce & Industry. Located in Bangalore, involved in R&D of electric vehicle technologies, engineering services & online course development. Decibels has served over 10000+ learners from 8+ countries including participants from OEM’s, Tier 1/2/3 suppliers, academia & research.”

Decibels Lab Pvt Ltd

Mode of delivery


 

Online / Self-paced (Recorded format) (Mentor support provided for doubt clarifications)


 

Software used

Altair

Applicable for

 

This course is for engineers who would like to build a career in CAE

 

Session formats

 

Enrolled participants will get access to pre-recorded course lectures In decibels LMS. You can learn the courses as per your time planning.

 

Doubt clarification

 

Addressed during via Discussions option available at each lesson In our LMS. If the query needs details discussion, we will support you through the zoom meeting.

 

Course access duration

 

3 months of training + 3 months of projects (180 days)

 

 

Learn the first module for FREE