TY - GEN
T1 - Material directional based constitutive law for Mullins induced anisotropy
AU - Brieu, M.
AU - Diani, J.
PY - 2005/12/1
Y1 - 2005/12/1
N2 - In an attempt to characterize rubber-like material hyperelasticity, it has been observed that firstly, special mechanical test conditions are required in order to eliminate the viscoelastic part of the material response, and secondly, during the first cycle of loading, a strain induced stress-softening, known as the Mullins effect, induces a permanent deformation and anisotropy that have to be taken into account. Hence, a material directional based constitutive model with damage is proposed in order to fit hyperelastic behavior of rubber-like materials possibly anisotropic due to the loading history.
AB - In an attempt to characterize rubber-like material hyperelasticity, it has been observed that firstly, special mechanical test conditions are required in order to eliminate the viscoelastic part of the material response, and secondly, during the first cycle of loading, a strain induced stress-softening, known as the Mullins effect, induces a permanent deformation and anisotropy that have to be taken into account. Hence, a material directional based constitutive model with damage is proposed in order to fit hyperelastic behavior of rubber-like materials possibly anisotropic due to the loading history.
M3 - Conference contribution
AN - SCOPUS:70449536320
SN - 0415383463
SN - 9780415383462
T3 - Constitutive Models for Rubber IV - Proceedings of the 4th European Conference for Constitutive Models for Rubber, ECCMR 2005
SP - 257
EP - 261
BT - Constitutive Models for Rubber IV - Proceedings of the 4th European Conference for Constitutive Models for Rubber, ECCMR 2005
T2 - 4th European Conference for Constitutive Models for Rubber, ECCMR 2005
Y2 - 27 June 2005 through 29 June 2005
ER -