What is Ansys Workbench?

ANSYS offers a suite of engineering simulation software for engineers and designers to virtually analyse how their products (and thousands of parts in them) work in real world environment, at an early stage of product design.

ANSYS software is being used across a wide range of industries to analyse various performance parameters such as signal integrity, electromagnetic interference, thermal issues, and mechanical failure.

Since, engineering simulation helps companies avoid the cost of product failure, companies are investing in creating virtual simulation platforms. Big brands are driven by great products, and great products result mainly from realistic simulation.

Traditionally, companies would design parts or subsystems in different engineering silos, and then subject their prototypes to physical tests at the later stage of product design. However, this physical testing will not give enough data for companies that produce smart products: cars, cell phones, wind turbines, etc that use thousands of components. Hence, virtual engineering simulation is increasingly preferred. Knowing how to do it is an important engineering software skill.

ANSYS has a whole set of products for you to perform simulation of structural aspects of a single product or complex interactions of subsystems. It will help you understand how products would work not only in ideal environments but also changing users’ environments or during unexpected consumer usage.

What is the need of Analysis?

• Today Industry is full with competitive challenges, customer requirement and finical pressure.
• Industry is in need to find methods for Engineering more innovative products and Manufacturing process while minimizing the Cost with Good Quality.
• Every industry recognizes that computer-based simulation is the key strategy for turning their design concept into successful and innovative products

Why Ansys Workbench?

• Superior CAD Interface and Robust Meshing
• Comprehensive Element Technology
• Extensive Library of Material Models
• Advanced Numerical Method of Non-Linear Problem
• Advanced Post-processing
• Reports
• Solver Customization and Scripting

Learning Outcomes

• Information packed practical training starting from basics to advanced
• Course content designed by considering the review of different companies. We insure we update our syllabus on regular intervals to keep our training in sync with the Industry Need.
• Practical assignments at the end of every session.
• Practical learning experience with live project work and examples.
• We encourage Project based learning.

Who should learn?

• B.E/B. Tech/ M.E. / M. Tech, and Diploma Mechanical Engineering Students.
• Automotive Engineering Students
• Aerospace Engineering Students
• Design Engineers
• Professionals

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