B-378/1, Ring Road, 1st Stage, Peenya,(near TVS cross), Bengaluru – 560058, India
Call Us: 9900067486
Monday to Friday Saturday and Sunday are not working days.
(09.30am - 05.00pm)
B-378/1, Ring Road, 1st Stage, Peenya,(near TVS cross), Bengaluru – 560058, India
Call Us: 9900067486
Monday to Friday Saturday and Sunday are not working days.
(09.30am - 05.00pm)
Computer-Aided Engineering (CAE) preprocessing is the crucial first step in any simulation or analysis. It involves preparing the geometry, creating the mesh, and defining materials and boundary conditions for a model before running simulations. This stage is essential as the accuracy and efficiency of the entire simulation process depend heavily on how well the preprocessing is done. Hypermesh is a powerful tool for CAE preprocessing, providing industry-standard meshing techniques, geometry clean-up, and model setup for simulations across various industries, from automotive to aerospace.
This comprehensive 30-day CAE training course is designed to provide a deep understanding of the powerful Hypermesh platform. With a focus on meshing techniques, geometry preparation, and simulation setup, this course will equip you with the skills needed to work effectively in industries such as automotive, aerospace, and mechanical engineering. Whether you're new to CAE or looking to enhance your skills, this cae course offers a complete learning experience that blends theory with hands-on practice.
30 Days
Earn a certification upon successfully completing the training
Offline, classroom-based training with practical sessions
This cae program is ideal for engineering students, graduates, and professionals with a mechanical or related background
Familiarize yourself with the Hypermesh interface, exploring its user-friendly layout and powerful features.
Learn how to configure your workspace using specific user profiles to optimize the workflow.
Master the import/export functionalities, including CAD data import, mesh export, and conversion between formats.
Understand how to clean and repair CAD geometry, preparing it for successful meshing and analysis.
Gain proficiency in creating high-quality meshes, including 1D, 2D, and 3D elements, essential for accurate simulations.
Learn how to extract mid-surfaces from complex models for efficient 2D meshing.
Discover how to define and set up different types of connections in Hypermesh, such as bolts, welds, and adhesives.
Understand how to apply and modify material properties for accurate simulation results.
Learn to evaluate and ensure the quality of your mesh based on industry standards and project requirements.
Explore various techniques to create meshes efficiently, balancing accuracy and computational efficiency.
Each stage of the training includes example problems, ranging from simple to high-complexity tasks. These examples are designed to demonstrate real-world applications of Hypermesh in industries like automotive and aerospace.
After each example problem, you will be provided with problems to solve independently. This ensures that you can apply the skills you've learned in a practical setting.
Your progress will be assessed through stage-wise tests. These evaluations will provide feedback and help you refine your understanding and expertise.
Those in their final years of mechanical, aerospace, automotive, or related branches looking to enhance their skills.
Fresh graduates looking to break into the CAE industry with job-ready skills.
Engineers looking to upgrade their skills in CAE and Hypermesh to stay competitive in their fields.
The curriculum is designed to meet the needs of industries that rely on CAE, ensuring you learn practical and up-to-date techniques.
Our instructors are industry veterans with extensive experience in using Hypermesh for real-world projects. They provide personalized guidance and mentorship throughout the course.
HyperMesh is primarily used for pre-processing finite element models for: Structural Analysis (linear and nonlinear) Thermal Analysis Fluid Dynamics (CFD) Electromagnetic Analysis Multibody Dynamics (MBD) Vibration and Modal Analysis.
High-quality mesh elements ensure accurate and reliable simulation results. Poor-quality meshes can cause convergence issues, inaccurate results, or longer computational times. Mesh quality parameters include element shape, aspect ratio, skewness, and orthogonality.
We believe in learning by doing. Our course includes numerous hands-on projects that help reinforce the concepts taught in class
Upon completing the training and passing the final assessments, you will receive a certification that validates your proficiency in CAE and Hypermesh, boosting your employability and career prospects.
