- 11th October 2016
10:00 am - 3:00 pm
Join our complimentary workshop on 11th October to see first-hand how ANSYS AIM R17.2 can help you solve your toughest structural or fluid flow design challenges in a single, easy-to-use environment.
When developing a new product, you will need to understand the structural, thermal, fluid and possibly electromagnetic performance of a component or assembly. Traditionally, simulating such coupled physics simultaneously has been tedious and potentially required individual expertise on each physics solver and workflow.
ANSYS AIM™ is an easy simulation environment designed for all engineers. It offers integrated single discipline and multi-physics solutions based on best-in-class solver technologies in a modern, new, immersive user environment that enables engineers to rapidly evaluate product design performance with confidence.
During our workshop, you will be able to assess ANSYS AIM™ first-hand to test if it will help your design processes. Our consultants will also be available to confidentially discuss your specific requirements.
Who Should Attend?
Anyone seeking an easy, fast and accurate way to predict product performance across a range of physics, including existing users of ANSYS and other simulation software.
Registration / Further Information
- Complete the form opposite
- Call us on +44 (0) 161 474 7479
- Email us at training@wildeanalysis.co.uk
Location
Venue: Wilde Analysis Classroom (Stockport)
Venue Phone: +44 (0) 333 996 9930
Venue Website: https://WildeAnalysis.co.uk
Address:
Description:
Whitworth House
28 Charles St
Stockport
Cheshire
SK1 3JR
Agenda Includes:
Introduction to ANSYS AIM™
- What is AIM?
- Which structural, thermal, fluid and electromagnetic physics can I simulate?
- Coupling between physics, including Fluid-Structure Interaction (FSI)
- The unique AIM workflow
Geometry Modelling and CAD Interfacing
- SpaceClaim within AIM
- Hands-On Example
Structural Analysis (FEA)
- Capabilities, including fatigue analysis
- Hands-On Example
Fluid Flow Analysis (CFD)
- Capabilities
- Hands-On Example
Coupled FEA/CFD
- Introduction to FSI
- Capabilities
- Hands-On Example
Model Transfer to Mechanical
- Transfer Geometry, Mesh and Selection Sets
- Transfer AIM Models to more Advanced Physics
- Enables Greater Collaborations
Parametric Based Optimisation
- Setting up and using parameters
- Design of Experiments
- Demonstration
Wrap-up
- Review of the day
- Features coming soon
- How to access ANSYS AIM for further evaluation