Publication detail

Comparison of experiment and simulation of tension and bending tests using anisotropic hyperelastic model

LASOTA, T. BURŠA, J.

Original Title

Comparison of experiment and simulation of tension and bending tests using anisotropic hyperelastic model

English Title

Comparison of experiment and simulation of tension and bending tests using anisotropic hyperelastic model

Type

conference proceedings

Language

en

Original Abstract

This paper deals with computational simulations of a composite material with rubber matrix and steel fibres. The computational simulations were realized at various levels of computational models and results were compared with experiments. For simulations two different levels were used - bimaterial and unimaterial. The main aim of this paper is to ascertain whether the unimaterial computational model can be used instead of the bimaterial one.

English abstract

This paper deals with computational simulations of a composite material with rubber matrix and steel fibres. The computational simulations were realized at various levels of computational models and results were compared with experiments. For simulations two different levels were used - bimaterial and unimaterial. The main aim of this paper is to ascertain whether the unimaterial computational model can be used instead of the bimaterial one.

Keywords

composite material, anisotropic, hyperelasticity, fiber-reinforcement

Released

09.11.2009

Publisher

Západočeská univerzita

Location

Plzeň 2009

ISBN

978-80-7043-824-4

Book

BOOK OF EXTENDED ABSTRACTS

Pages from

1

Pages to

2

Pages count

2

Documents

BibTex


@proceedings{BUT65524,
  author="Tomáš {Lasota} and Jiří {Burša}",
  title="Comparison of experiment and simulation of tension and bending tests using anisotropic hyperelastic model",
  annote="This paper deals with computational simulations of a composite material with rubber matrix and steel fibres. The computational simulations were realized at various levels of computational models and results were compared with experiments. For simulations two different levels were used - bimaterial and unimaterial. The main aim of this paper is to ascertain whether the unimaterial computational model can be used instead of the bimaterial one.",
  address="Západočeská univerzita",
  booktitle="BOOK OF EXTENDED ABSTRACTS",
  chapter="65524",
  institution="Západočeská univerzita",
  year="2009",
  month="november",
  pages="1--2",
  publisher="Západočeská univerzita",
  type="conference proceedings"
}