Explicitly Modeling Stress Softening and Thermal Recovery for Rubber-like Materials

Author:

Wang XiaomingORCID,Xiao Heng,Lu Shengliang

Abstract

Rubber-like materials exhibit stress softening when subject to loading–unloading cycles, i.e., the Mullins effect. However, this phenomenon can be recovered after annealing the previously stretched sample under a stress-free state. The aim of this paper is to establish a constitutive model with thermodynamic consistency to account for the stress softening and thermal recovery. Towards this goal, (i) an explicit form of Helmholtz free energy can be found such that the restrictions from thermodynamic law can be satisfied; (ii) a compressible, multi-axial strain-energy function considering energy dissipation is proposed by introducing specific invariants; (iii) a unified shape function based on the symmetry property of the test data in a one-dimensional case with stress softening and thermal recovery is provided by introducing a weight variant; (iv) it is proven that the new potential can automatically reduce to the one-dimensional case, i.e., uniaxial tension, equal biaxial, or plane strain; (v) numerical results for model validation are exactly matched with classical experimental data.

Funder

Research Project supported by the Department of Education of Zhejiang Province

Special project of institute supported by Ningbo Polytechnic

research Project of Wenzhou Science & Technology Bureau

Publisher

MDPI AG

Subject

Physics and Astronomy (miscellaneous),General Mathematics,Chemistry (miscellaneous),Computer Science (miscellaneous)

Reference38 articles.

1. Effect of stretching on the properties of rubber;Mullins;J. Rubber. Res.,1948

2. Softening of rubber by deformation;Mullins;Rubber Chem. Technol.,1969

3. Theoretical model for the elastic behaviour of filler-reinforced vulcanized rubbers;Mullins;Rubber Chem. Technol.,1957

4. Constitutive model for stretch-induced softening of the stress-stretch behavior of elastomeric;Qi;J. Mech. Phys. Solids,2004

5. A three-dimensional constitutive model for the large stretch behavior of elastomers;Arruda;J. Mech. Phys. Solids,1993

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