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Communication Dans Un Congrès Année : 2014

Revisiting the behaviour of elastomers with energy balances: energy stored, intrinsic dissipation, the physical meaning of the hysteresis loop…

Revisiter le comportement des élastomères par des bilans d'énergie : énergie stockée, dissipation intrinsèque, la signification physique de la boucle d'hystérésis...

Jean-Benoit Le Cam

Résumé

Most of phenomena involved in deformation of rubber depend on temperature and have distinguishable thermal and calorimetric signatures. However, since the pioneer investigations being those conducted by Gough and Joule in the 19th century, studies were dedicated more to mechanical response, and the thermal aspects of the deformation of rubber were not really explored experimentally. Therefore, revisiting the rubber deformation using experimental thermomechanics should offer new perspectives to better understand damage and deformation mechanisms. In the present study, temperature variations are measured during the mechanical tests by means of infrared thermography. The heat sources produced or absorbed by the material due to deformation processes are deduced from the temperature variations by using the heat diffusion equation. The calorimetric signatures of the most important effects in rubber deformation have been characterized in case of homogeneous and heterogeneous (at the crack tip) mechanical fields. Moreover, complete energy balances carried out during cyclic deformation show that viscosity is not systematically the preponderant contribution to the hysteresis loop: the mechanical energy brought to the material is not entirely dissipated into heat but can be predominantly used by the material to change its microstructure. This can be quantified by defining a ratio in terms of energy. This presentation gathers several results [1-9] obtained with several academic and industrial partners who are warmly acknowledged.
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hal-02175864 , version 1 (05-05-2020)

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  • HAL Id : hal-02175864 , version 1

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Jean-Benoit Le Cam. Revisiting the behaviour of elastomers with energy balances: energy stored, intrinsic dissipation, the physical meaning of the hysteresis loop…. The BSSM's 14th International Conference on Advances in Experimental Mechanics, Sep 2019, Belfast, Ireland. pp.6345-6353. ⟨hal-02175864⟩
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