Thermo-visco-hyperelastic modeling of the rubber self-heating under fatigue
| type de publication |
communication internationale avec actes publiés |
| date de publication |
2013 |
| auteur(s) |
Ovalle Rodas Cristian Manuel; Zaïri Fahmi; Naït Abdelaziz Moussa |
| | |
| conférence |
8th European Conference on Constitutive Models for Rubbers |
| dates |
de 25-06-2013 à 28-06-2013 |
| lieu |
San Sebastian, Spain |
| nom des actes |
Constitutive Models for Rubber VIII |
| | |
| ISBN / ISSN |
978-1-138-00072-8 |
| résumé |
The objective of this study is to propose a thermo-visco-hyperelastic model capable to predict the self-heating of rubber-type materials under fatigue loading. The model, compatible with the Clausius-Duhem dissipation principle, is based on a Zener rheological representation. It is well recognized that the mechanical response of rubber-type materials can be decomposed into two components: an equilibrium component that takes into consideration the material state after long-time stress relaxation and a second component that takes into consideration the non-linear time-dependent deviation from the equilibrium response. Considering the thermo-mechanical coupling a pseudo-potential of dissipation, function of the viscous dilatation tensor, is postulated. The proposed model is fully three-dimensional and has been implemented into a finite element code. The numerical results are in good agreement with experimental data, carried out on a styrene-butadiene rubber, for different strain-rate and strain conditions. |
| mots clés |
Rubber-type materials, low-cycle fatigue, self-heating, thermo-viscoelastic model. |
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