Prerequisites

To complete this example successfully, you must have access to the required apps and sample files and to sufficient computing resources. In addition, you need a basic understanding of the features and concepts introduced in the example. A list of related guides and resources describes where you can find additional information about the apps and tools used to solve the example.

This page discusses:

Apps

Your 3DEXPERIENCE platform roles must provide access to the following apps:

  • Design with SOLIDWORKS
  • Derived Format Converter
  • Material Definition
  • Mesh Creation
  • Physics Results Explorer
  • Structural Scenario Creation
Note: This example illustrates the use of Structural Scenario Creation; however, you can also complete the example using Mechanical Scenario Creation.

You must also have access to SOLIDWORKS Desktop with a SOLIDWORKS Simulation Premium license to complete this example.

Release

This example was developed on the R2021x FD06 version of the 3DEXPERIENCE platform and the 2021 version of SOLIDWORKS Desktop. It is expected to be compatible with later releases.

Solve Time

This simulation takes 10 minutes to complete on a typical desktop with 4 CPUs and 32 GB RAM.

Sample Data

The Knowledge Base article Sample Data: Contact Analysis of an O-Ring provides the SOLIDWORKS assembly used in the example.

Background

You should be familiar with the 3DEXPERIENCE platform, as well as the basic functionality of SOLIDWORKS and SOLIDWORKS Simulation.

Related Guides and Resources

Guide Description
3DEXPERIENCE Platform Describes the key concepts and capabilities of the 3DEXPERIENCE platform, such as the Compass, 6WTags, 3DSearch, and 3DNotification.
3DEXPERIENCE Native Apps Describes the user interface and tools common to all native apps. This guide complements 3DEXPERIENCE Platform.
3D Modeling | 3DEXPERIENCE for SOLIDWORKS Users | 3DEXPERIENCE Simulation for SOLIDWORKS Users Describes how to save SOLIDWORKS geometry and simulation studies to the 3DEXPERIENCE platform so that you can define and run advanced simulations.
Simulation | Multidiscipline and Multiscale | Material Definition Describes how to define materials, apply materials to objects, and explore materials and material domains.
Simulation | Multidiscipline and Multiscale | Mesh Creation Describes how to discretize model geometry into the finite elements required to compute simulation results.
Simulation | Multidiscipline and Multiscale | Physics Results Explorer Describes how to perform detailed simulation results visualization for models of all sizes using a wide selection of tools.
Simulation | Multidiscipline and Multiscale | Physics Simulation Fundamentals Describes the interactions, tools, and behaviors common to most physics simulation apps.
Simulation | Structures | Structural Scenario Creation Describes how to define and run linear and nonlinear structural simulations, excluding explicit dynamic analyses.

If you have a 3DEXPERIENCE ID, you can find additional assistance as follows:

  • The Program Directory includes the latest information about new features and known issues.
  • The Knowledge Base provides question-and-answer articles for a wide range of content. You can search the Knowledge Base for information relevant to your app.

Information about working with simulations and processes is also available in the 3DEXPERIENCE section of the SIMULIA Community. The SIMULIA Community is the place to find the latest resources for SIMULIA software and to collaborate with other users.