Menu
Search

ANSYS Mechanical – Material Nonlinearities

ANSYS Mechanical – Material Nonlinearities

ANSYS Mechanical is an intuitive mechanical analysis tool that offers a rich library of nonlinear material options to simulate many different advanced nonlinear behaviors related to material. Among these options include the Chaboche advanced metal plasticity model, ANAND viscoplasticity, many creep options, prony series viscoelasticity, hyperelasticity and other advanced materials. APDL can be ultilized to access options not directly available within Engineering Data such as Bergstrom-Boyce rate dependent behavior, anisotropic hyperelasticity and Mullin’s effect. Curve fitting tools are also available for converting experimental test data into meaningful parameters for metal plasticity (Chaboche), hyperelasticity and viscoelasticity options.

Prerequisites

  • A technical education and background but an engineering degree is not required.
  • Completion of the ANSYS Mechanical Basic Structural Nonlinearities course is required.
  • Students need a working knowledge of the procedures for performing a basic nonlinear static structural analysis in the Mechanical Environment.
  • General familiarity with the Workbench Project Page, Engineering Data and the Mechanical Interface is assumed.

Duration

2 Days

Course Fee

Contact us for further details.

Registration / Further Information

Training Services Overview >>

This training course teaches students how to effectively use ANSYS Mechanical to analyse structural problems involving nonlinear materials.

Course Topics Include:

  • Advanced Metal Plasticity
  • Viscoplasticity
  • Creep
  • Hyperelasticity
  • Viscoelasticity
  • Advanced Material Options
  • Mullins effect
    • Anisotropic Hyperelasticity
    • Bergstrom-Boyce
    • Shape Memory Alloy

Each course chapter is followed by “hands-on” workshops and exercises.

Wilde Analysis Training Facility
Whitworth House, 28 Charles St
Stockport
SK1 3JR

Enquiry Form

Please refer to our Privacy Policy regarding how we may process any personal data you submit within this form.

© 2024 Wilde Analysis Ltd.

Web design and hosting by BFI®