Course level:Intermediate

ANSYS Certification Course for EVs: Fundamentals to Adv. Structural Analysis

Unlock the power of computer-aided design (CAD) and finite element analysis (FEA) with our comprehensive “ANSYS Certification Course for EVs: From Fundamentals to Structural Analysis.” This program provides a deep dive into the essential tools and concepts needed to excel in engineering design and analysis. From an introduction to CAD, CAM, and CAE to advanced topics like meshing, material selection, and structural analysis, you’ll gain the skills required to perform accurate simulations and optimizations. Learn how to navigate the ANSYS interface, conduct pre-analysis, verify and validate models, and run simulations from start to finish. With hands-on projects, such as transforming CAD geometry into FEA models for structural analysis, this course is perfect for engineers and designers looking to enhance their technical capabilities and advance their careers in simulation and analysis.

At a glance

  • Launching Soon! Stay Tuned!!
  • 4 Modules.
  • 30 Lectures.
  • 8.041 hours of Video Content.
  • 4 Quizzes with Solutions.
  • 1 Project Assignment.
  • Certification of Completion.
3,500.00

Course Curriculum

Welcome to the Course!

  • Sign up at ev.care to access free learning materials!

Module 1: Introduction to CAD/CAE and ANSYS
This module introduces the basics of CAD, CAM, and CAE, focusing on how ANSYS fits into the simulation workflow. It includes an overview of the ANSYS interface and provides guidelines for model verification and validation.

Module 2: Fundamentals of FEA and Material Properties
This module explains the foundational concepts of finite element analysis (FEA) and how material properties are handled in simulations. Topics include node and element definitions, degrees of freedom (DOF), and analysis of different material types such as isotropic and orthotropic materials.

Module 3: ANSYS Project Setup and Geometry Handling
Learn how to set up ANSYS projects, import and clean up CAD geometry, and prepare models for simulation. This module teaches geometry simplification techniques to improve simulation accuracy and efficiency.

Module 4: Meshing, Analysis Setup, and Structural Anlalysis
Dive into meshing techniques, analysis setup, and structural analysis workflows in ANSYS. This module covers creating new geometry, meshing fundamentals, setting up static structural analysis, applying boundary conditions, and material selection.

DIY Projects:

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Hardware & Software Required

Hardware: Minimum: 8 GB RAM, Quad-Core Processor, and 50 GB of free disk space.

Software:

  • ANSYS Student Version or Professional License
  • CAD software such as SolidWorks, AutoCAD, or CATIA (optional for geometry generation).

DIY Projects Included

Project 1: CAD to FEA Workflow- Structural Analysis of a Mechanical Component

The project involves creation of a 3D CAD model, pre-processing, meshing, and performing a static structural analysis using ANSYS. Results are validated and optimized based on FEA.

Course Benefits

For Professionals:

  • Enhancement of simulation skills for complex engineering problems, increasing value in R&D and product development roles.
  • Broadening knowledge of CAD/CAE tools, enabling more efficient and accurate design processes.
  • Gaining proficiency in ANSYS, a widely recognized tool in the industry, making them more competitive in the job market.

For Freshers:

  • Acquiring industry-relevant skills in CAD, FEA, and CAE, providing a strong foundation for a career in engineering.
  • Gaining practical experience with ANSYS, improving employability in fields like aerospace, automotive, and manufacturing.
  • Building a portfolio of projects that demonstrate ability to apply theoretical knowledge to real-world engineering challenges.

Technical expertise you will gain

  • Understand and apply the principles of CAD, CAM, and CAE in engineering projects.
  • Navigate and utilize ANSYS for performing comprehensive simulations, including static structural analysis.
  • Perform geometry clean-up, simplification, and meshing for complex models.
  • Set up and run finite element analyses, and interpret the results to inform design decisions.
  • Apply material science principles within simulations, including the use of isotropic and orthotropic materials.
  • Validate and verify models to ensure accuracy and reliability of simulation results.

Who can take this course?

This course is suited for participants who have a basic understanding of CAD and mechanical engineering principles. It provides a balance between introductory and advanced concepts, making it suitable for students, professionals, and individuals looking to expand their simulation skills.

  • Freshers
  • Professionals

Personalized Trainer Support Portal:

  • 24/7 Access to a personalized trainer support portal.
  • One-on-One Mentorship for queries and project guidance.
  • Access to diverse resources, including recorded lectures, reading materials, and practical guides.
  • Dedicated forums for content discussion, insights, and project collaboration.
  • Regular Feedback from trainers for comprehensive understanding and improvement.

At a glance

  • Launching Soon! Stay Tuned!!
  • 4 Modules.
  • 30 Lectures.
  • 8.041 hours of Video Content.
  • 4 Quizzes with Solutions.
  • 1 Project Assignment.
  • Certification of Completion.
3,500.00

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