Resource Library

In this webinar, we will demonstrate a multiphysics simulation for crack propagation analysis. You will learn how a multiphysics workflow in Ansys Workbench — integrated with Ansys Mechanical and Ansys Fluent — can be established for this purpose. Our SMART (separating morphing and adaptive remeshing technology) crack growth capability will be employed to analyze crack growth due to thermo-mechanical fatigue (TMF).

The webinar will take you through an illustrative workflow using a turbocharger application to explain:

• Fluid mechanics analysis (for the determination of temperature and pressure distribution on surfaces)
• Thermal analysis (for the calculation of full temperature fields)
• Stress analysis (for the delivery of full displacement and stress fields and to find the most highly stressed areas)
• SMART crack growth analysis (for determination of fracture parameters, crack path and component lifetime after crack initiation)

Attend this webinar to learn how Ansys Fluent can accelerate the meshing and solve time for electric motors. There will be a live demonstration showcasing:

• CAD import to volume mesh generation
• User-friendly task-based workflows
• How to customize and save your workflow
• Advanced meshing technologies
• Efficient parallel meshing

Many important and complex CFD simulation workflows contain dirty, non-watertight geometries, which typically require extensive cleanup and repair before meshing. In this webinar, learn how the fault-tolerant meshing workflow in Ansys Fluent may be used to simplify and speed up meshing for dirty geometries, with no or minimal geometry preparation required.

Topics include: 

• Demonstration of the fault-tolerant meshing workflow in Fluent 
• Custom part definition for quick and easy domain definitions 
• Handling of gaps and leakages in large assemblies 
• Different meshing options for fluids and solids

Drop test and impact analysis are areas of interest in many industries like medical, electronics, manufacturing, military, and aerospace and defense. All these industries seek the best ways to make their products robust and reliable. Ansys LS-DYNA is a nonlinear explicit finite element code that is used widely in these industries to model drop and impact simulation to understand product integrity and determine critical regions in the assembly.

Learn about the unique capabilities and features of LS-DYNA to efficiently model impact and drop tests.

Attend this webinar to learn how Ansys Fluent can accelerate the meshing and solve time for batteries. There will be a live demonstration showcasing:

• CAD import to volume mesh generation
• User-friendly task-based workflows
• How to customize and save your workflow
• Advanced meshing technologies
• Efficient parallel meshing

Wind energy is considered an important part of the global renewable energy strategy. Therefore, it is imperative that the development of these technologies matches the speed at which they are needed. 

Join Ansys and our customers as we explore how a simulation led approach enables the rapid development of their products in an industrial context.

Attend this webinar to learn how Ansys Fluent can accelerate the meshing and solve time for aerospace and defense external aerodynamics applications. There will be a live demonstration showcasing:

• CAD import to volume mesh generation
• User-friendly task-based workflows
• How to customize and save your workflow
• Advanced meshing technologies
• Efficient parallel meshing

This white paper describes how to build a virtual test environment to support electromagnetic compatibility (EMC), radio frequency interference (RFI) and electromagnetic environmental effects (E3) design and verification.