Publication detail

Computational Modelling of Bimaterial Interface Failure in View of Rubber-Steel Interface

SKÁCEL, P. BURŠA, J.

Original Title

Computational Modelling of Bimaterial Interface Failure in View of Rubber-Steel Interface

English Title

Computational Modelling of Bimaterial Interface Failure in View of Rubber-Steel Interface

Type

journal article - other

Language

en

Original Abstract

This paper presents a brief review of selected approaches used for computational modelling of bimaterial interface failure and for evaluation of interface failure resistance. Attention is paid to the approaches that assume absence of initial interface crack. The applicability of such approaches to rubber-steel interface failure evaluation is discussed in the paper. The approach based on the so called cohesive zone model is preferred and demonstrated by an example of computational modelling of rubber-steel interface failure during a peel-test. The results of peel-test computational modelling are presented. The influence of cohesive zone element number on the results is also analysed. The results are consistent with experimental data.

English abstract

This paper presents a brief review of selected approaches used for computational modelling of bimaterial interface failure and for evaluation of interface failure resistance. Attention is paid to the approaches that assume absence of initial interface crack. The applicability of such approaches to rubber-steel interface failure evaluation is discussed in the paper. The approach based on the so called cohesive zone model is preferred and demonstrated by an example of computational modelling of rubber-steel interface failure during a peel-test. The results of peel-test computational modelling are presented. The influence of cohesive zone element number on the results is also analysed. The results are consistent with experimental data.

Keywords

computational modelling, interface failure, bimaterial interface, adhesion strength, cohesive zone model, peel-test, rubber

Released

01.07.2005

Publisher

Pavel Heriban

Location

Brno

Pages from

73

Pages to

85

Pages count

13

Documents

BibTex


@article{BUT50760,
  author="Pavel {Skácel} and Jiří {Burša}",
  title="Computational Modelling of Bimaterial Interface Failure in View of Rubber-Steel Interface",
  annote="This paper presents a brief review of selected approaches used for computational modelling
of bimaterial interface failure and for evaluation of interface failure resistance.
Attention is paid to the approaches that assume absence of initial interface crack.
The applicability of such approaches to rubber-steel interface failure evaluation is
discussed in the paper. The approach based on the so called cohesive zone model is
preferred and demonstrated by an example of computational modelling of rubber-steel
interface failure during a peel-test. The results of peel-test computational modelling
are presented. The influence of cohesive zone element number on the results is also
analysed. The results are consistent with experimental data.",
  address="Pavel Heriban",
  chapter="50760",
  institution="Pavel Heriban",
  journal="Engineering Mechanics",
  number="2",
  volume="12",
  year="2005",
  month="july",
  pages="73--85",
  publisher="Pavel Heriban",
  type="journal article - other"
}