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LS-DYNA Compact: Polymers/Elastomers

In recent years foam- and rubber-materials have become more and more important for a large variety of industrial applications. Especially foams are widely used in the automotive industry because of their energy absorbing properties and the advantageous stiffness to density ratio. Compared to other commonly used materials as for example steel or aluminum, the material behavior of foams is much more complex. The modeling of foams for a finite element simulation therefore represents a challenging task for the simulation expert. Rubber-Materials are in general non-linear elastic. Especially rubber materials show a very strong rate-dependent behavior, which has to be considered in the constitutive material formulation.

The program LS-DYNA offers its users a wide range of material models that have been developed exclusively for the modeling of foams and rubbers. The choice and the application of such special material models require a good basic knowledge of the theoretical as well as the numerical background.

It is the objective of this webinar to give an overview of the available material models for foams, rubbers and glues in LS-DYNA and on how to apply them properly. In addition to that the theoretical background of these models will be presented. Furthermore the topics parameter identification, experimental set-up and evaluation of experimental results will be discussed.

Small example problems will illustrate various application cases of the material models implemented in LS-DYNA.

The course will take place from 2 to 4 p.m. (CET) on two consecutive days.

Contents

  • Presentation of various applications
  • Discussion of the material behavior of polymers
  • Foams
    • Reversible, crushable and semi-crushable foams
    • Appropriate material models for LS-DYNA
    • Preparation of test results and assumption in LS-DYNA
  • Rubber Materials
    • Quasi-static and dynamic behavior
    • Incompressibility
    • Experimental set-up, data preparation
    • Parameter Identification
  • Thermoplastics
    • Material models for small deformations
    • Material models for large deformations
    • Experimental set-up, data preparation
    • Validation and verification
Details
Date 25.11.2021 (2 days)
Lecturers Stefan Kolling
Location Online
Languages English
Price
Standard (400 € + VAT)
Employee of University (200 € + VAT)
Student (40 € + VAT)
ICal