ABSTRACT
This paper focuses on the finite strain thermo-mechanical modelling of the dynamical behaviour of filled rubbers under combined compression and shear using a multiphysics coupling approach. The mechanical behaviour of such materials depends on the network evolution due to thermo-mechanical loadings and the external environmental conditions (oxidation, ageing …). An experimental campaign including tensile, compression/shear and compression/torsion tests allows the study of the impact of thermal ageing on the material properties, namely the bulk modulus and the shear modulus. This experimental investigation is dedicated to characterize the relationship between the hydrostatic pressure versus the volume change and the isochoric visco-hyperelastic behaviour as a function of ageing.
