This executive program is designed to teach participants how to use Altair Hypermesh, a software program used for modeling and simulating automotive components. The program will cover the basics of Hypermesh, as well as more advanced topics such as finite element analysis (FEA). FEA is a computer-based technique that is used to simulate the behavior of materials and structures under stress. By using FEA, engineers can design automotive components that are safe, reliable, and efficient.
This executive program is suitable for recent engineering graduates with a background in mechanical engineering or related fields who are interested in pursuing a career in automotive simulation.
This course is suitable for the following groups of individuals :
This executive program will cover the basics of Altair Hypermesh, including mesh generation, material properties, and boundary conditions.
Here's what you can learn from the course :
Mesh Generation - You'll gain hands-on experience creating meshes, which are digital representations of the geometry you want to simulate. This will involve understanding different mesh types (tetrahedral, hexahedral, etc.) and learning how to choose the appropriate one for various automotive components (engines, chassis parts, etc.).
Material Properties - The program will teach you how to define and assign material properties like stiffness, density, and strength to different parts of your automotive component model within Hypermesh. This is crucial for obtaining realistic simulation results.
Boundary Conditions - You'll learn how to specify how the component interacts with its surroundings in the simulation. This involves defining fixed supports, applying loads (forces, pressures, etc.), and simulating real-world scenarios relevant to automotive components (e.g., engine vibrations, crash simulations).
Prepare accurate and efficient models - A well-generated mesh and appropriate material properties ensure your simulation accurately reflects the real-world component. Understanding boundary conditions allows you to set up realistic scenarios for analysis.
Perform basic FEA simulations - This foundation will equip you to run basic Finite Element Analysis simulations in Hypermesh for automotive components. You'll be able to analyze simple stress and strain distributions to assess the component's initial performance.
After completing the Executive Program in Modeling & Simulation of Automotive Components using Altair Hypermesh, you'll be positioned for several exciting career opportunities in the automotive industry.
Here are some potential career opportunities you could pursue :
Tailored for industry relevance, our comprehensive syllabus ensures a hands-on and practical learning journey.
Weeks of learning
Modules
Explore the intricate world of Vehicle Architecture tailored for Mechanical Engineers in this specialized course. Acquire a comprehensive understanding of the mechanical aspects that underpin vehicle design, from chassis to propulsion systems. Dive into real-world applications and industry best practices, honing your skills to engineer cutting-edge vehicles. Elevate your expertise, ensuring you are well-equipped to navigate the complexities of modern vehicle architecture and contribute to the advancement of automotive technology.
Overview of Vehicle Architecture and PD Cycle
Vehicle Subsystems
Interior and Exterior
Chassis and Powertrain
Exhaust and Fuel System
Trim and Body-in-White (BIW)
Future Trends
Dive into the realm of Mechanical Engineering excellence with our Finite Element Analysis course. Tailored for Mechanical Engineers, this comprehensive program equips you with the skills to analyze and optimize structural components for real-world applications. Uncover the intricacies of Finite Element Analysis techniques, ensuring accuracy and efficiency in engineering design. Whether you're advancing your career or delving into the field, this course provides a solid foundation for mastering the complexities of structural analysis. Elevate your engineering prowess and contribute to the forefront of innovation in the Mechanical Engineering domain.
Introduction to FEA
Discretization
Material Properties
Boundary Conditions
Mesh Generation
Assembly,Solving & Validation
Softwares and Career opportunities
Embark on a journey of Automotive Engineering mastery with our Modeling and Simulation course using Altair HyperMesh. Tailored for engineers and enthusiasts, this program delves into advanced techniques for creating and simulating automotive components. Gain hands-on experience in utilizing Altair HyperMesh to optimize designs and enhance performance. Whether you're advancing your career or seeking specialized skills in automotive simulation, this course provides a deep dive into the intricacies of modeling and simulation. Elevate your expertise and contribute to the innovation and efficiency demanded by the automotive industry.
CAE in Automotive Industry - An Overview
FEA in CAE
Introduction to Hypermesh
File Import and Geometry setup
Topology Optimization
Geometric Quality and Parameters setup
Meshing
Model Setup
Introduction to Connection
Introduction to Post processing
Revolutionize your expertise in Mechanical Engineering with our Electric Vehicle Architecture course. Tailored for Mechanical Engineers, this program delves into the intricacies of designing cutting-edge Electric Vehicle (EV) architectures. Explore advanced concepts in EV components, systems, and integration, gaining insights into the forefront of sustainable transportation. Whether you're advancing your career or entering the field of electric vehicles, this course equips you with the knowledge to shape the future of automotive engineering. Elevate your proficiency and contribute to the evolution of sustainable transportation with confidence.
Introduction to Electric Vehicles
Components of Electric Vehicles
Key Electrical Terminologies
Battery Management System
Charging Algorithms
Motor Drive: Motors
Motor Drive: Speed Control
Power Electronics
Vehicle To Grid (V2G)
Future trends
Govt Policies & Initiatives
Discover answers to common inquiries about our program, support, and enrollment process
What is the prerequisite for enrolling in this executive program?
The prerequisite for this course typically involves a Bachelor's degree in Mechanical Engineering or a related field with a solid understanding of technical drawings and engineering mechanics.
What kind of projects can I expect to work on during the course?
The specific projects you'll encounter in the Executive Program in Modeling & Simulation of Automotive Components using Altair Hypermesh will likely focus on building a foundation in the core functionalities and applying them to relevant automotive scenarios.
Is there a certification upon completion, and how is the assessment conducted?
Yes, a certification of completion will be provided. Assessment methods include project submissions, quizzes, and a final capstone project.
Can this course be beneficial for someone already working in the automotive industry?
Absolutely! This course can be highly beneficial for individuals already working in the automotive industry, especially those in design, manufacturing, quality control or research.
What kind of support is available if I face difficulties during the course?
Dedicated support channels, including mail and phone communication with technical support, will be available to address any queries or challenges encountered during the course.
Is there flexibility in the course schedule, and how long does it typically take to complete?
The course is designed to offer flexibility, allowing participants to learn at their own pace. The duration may vary, but it is structured to be completed within a reasonable timeframe.
Will I have access to course materials after completing the program?
Yes, you will have access to course materials for a specified duration, allowing them to review content and continue learning even after completion.