Instructors
Introduction to Hypermesh & Radioss (Nastran)
Developes basic skills on Meshing and Structural simulations. Classroom based training with practical coverage on Theory, FEM & SOM
0 STUDENTS ENROLLED
Classic Level Program |
Offline Training (Classroom course) |
Classes on Weekdays |
Course code: CR-HM01 |
Experienced Instructors |
Industry Recognised Certification |
Project based Training |
Regular assignments & assessments |
Domain Based (auto, aero) curriculum |
Cloud-based online learning materials |
All our courses are designed by a team of highly experienced professionals from the Industry
This course will provide the Advanced skills & special-techniques on Industry-oriented meshing and analysis, needed to become a successful Analysis Engineer.
This course has two modules: |
HM1 – Geometry preparation & Meshing Techniques using HYPERMESH |
HM2 – Structural Simulations using RADIOSS (NASTRAN) |
This course covers: |
Geometry preparation using HYPERMESH |
Meshing generation techniques |
Structural Analysis using RADIOSS (NASTRAN) |
Post-processing using HYPERVIEW |
Classroom sessions | : 15 Hours |
Practical sessions | : 50 Hours |
Online tests | : Topic-wise |
Industry Oriented Project | : 15 Hours |
Special sessions for Interview Preparation |
HYPERMESH is special-purpose software used to build FE models for Structural Analysis. |
RADIOSS is the leading solver generating file-decks similar to NASTRAN. |
Leading companies like Mercedes Benz, General Motors, Caterpillar, Tata Motors, Honda, Boeing, Goodrich Aerospace, Airbus, Mahindra, Nissan etc. use HYPERMESH & RADIOSS. |
Structural Analysis is used to validate the design in the domains like automotive, aerospace, marine, heavy engineering, oil & gas, energy, machine-tools etc. to validate and enhance product performance. |
On successful completion of this course, you will be able to Build FE models as per industry requirements, Perform various analysis & Develop Job skills.You will also learn the following: |
Fundamentals of Finite Element Methods (FEM) |
Overview of Structural Analysis |
How to Import and align the geometry |
Prepare the geometry for FE modelling |
Create & modify various geometric-entities |
Create & edit different types of FEM entities like nodes, elements etc. |
Generate shell-mesh with 2D elements |
Generate solid-mesh with 3D elements |
Build Hybrid FE models using 2D & 3D elements |
Ensure mesh-quality |
Theoretical & Practical overview of Structural Analysis |
Perform Static Analysis of Structural Systems |
Accomplish domain-based projects on Meshing & Analysis |
Students & Fresh graduates (BE/ME in Mech, Aero, Auto) seeking an entry into the design field |
CAD engineers who wish to upgrade to Analysis-field and move ahead in their career |
Team Leads and managers who want to add ‘Analysis-projects’ into their portfolio |
This course does NOT need prior knowledge of any CAD software |
Pre-requisite: Nil |
↓↓↓ Refer to Modules listed below ↓↓↓
Geometry preparation & Meshing Techniques using HYPERMESH
Geometry Preparation of auto & aero systems using Hypermesh |
Geometry preparation for the Fender of a car |
Geometry Clean-up for the Center Pillar of a car |
Geometry preparation for the wing-panel of an aircraft |
2D Meshing Techniques for auto & aero systems using Hypermesh |
Meshing of BIW parts (auto & aero) using automeshing techniques |
Meshing auto & aero components for crash and durability analyses |
3D Meshing Techniques for Industrial systems using Hypermesh |
3D Meshing – Structured meshing (Brick/Hex) & Un-structured meshing (Tetra) |
3D Mesh generation for Industrial systems |
Assignments & Evaluation on Geometry & meshing |
Project on Geometry & meshing of Auto, Aero or Industrial systems |
Structural Simulations using RADIOSS (NASTRAN)
Structural analysis of Aero & Automotive systems |
Industrial Approach to Design & Validation |
Introduction to FEA & CAE Work flow |
Introduction to Strength of materials |
Linear Static Analysis – Theory & Practice |
Design validation of an automotive gear-shaft using structural analysis |
Identify the failure mode and re-design a engine-mount using linear static analysis |
Design a connecting-rod for strength using stress analysis |
Results processing using HYPERVIEW |
Results Interpretation & Documentation |
Industry-oriented Project on Linear Static Analysis of Auto, Aero or Industrial systems |