AbstractA study of direction-based models for the representation of isotropic and anisotropic hyperelastic behaviour of rubber-like materials is proposed. The interest in such models is sustained by their ability to account for the Mullins effect induced anisotropy. For such a purpose, the directional models should be initially isotropic and representative of the hyperelastic behaviour of rubber-like materials. Various models were defined according to different sets of directions. Models were tested in terms of their initial anisotropy and their ability to reproduce the classic full-network hyperelastic behaviour. Various models were proved to perform very well
This thesis work presents a study of the mechanical behavior of soft materials submitted to large de...
Proceedings of the 7th European Conference on constitutive models for rubber, Dublin, Ireland, 20-23...
A micromechanically based non-affine network model for finite rubber elasticity and viscoelasticity ...
A study of direction-based models for the representation of isotropic and anisotropic hyperelastic b...
AbstractA study of direction-based models for the representation of isotropic and anisotropic hypere...
Original constitutive modeling is proposed for filled rubber materials in order to capture the anisot...
A material direction-dependent constitutive model has been formulated for large deformation of aniso...
AbstractThe visco-hyperelastic behavior of a filled rubberlike material has been studied experimenta...
International audienceThe Mullins effect refers to a stress-softening phenomenon of rubber-like mate...
International audienceRubber-like materials present a stress softening phenomenon after a first load...
International audienceThis paper focuses on the mechanical hysteresis in elastomers, i.e. the differ...
AbstractThe motivating key for this work was the absence of a phenomenological model that can reason...
International audienceDuring cyclic loading, rubber like materials exhibit a stress-softening phenom...
AbstractTo the best of our knowledge, there are no constitutive models that properly describe experi...
International audienceMany rubber like materials present a phenomenon known as Mullins effect. It is...
This thesis work presents a study of the mechanical behavior of soft materials submitted to large de...
Proceedings of the 7th European Conference on constitutive models for rubber, Dublin, Ireland, 20-23...
A micromechanically based non-affine network model for finite rubber elasticity and viscoelasticity ...
A study of direction-based models for the representation of isotropic and anisotropic hyperelastic b...
AbstractA study of direction-based models for the representation of isotropic and anisotropic hypere...
Original constitutive modeling is proposed for filled rubber materials in order to capture the anisot...
A material direction-dependent constitutive model has been formulated for large deformation of aniso...
AbstractThe visco-hyperelastic behavior of a filled rubberlike material has been studied experimenta...
International audienceThe Mullins effect refers to a stress-softening phenomenon of rubber-like mate...
International audienceRubber-like materials present a stress softening phenomenon after a first load...
International audienceThis paper focuses on the mechanical hysteresis in elastomers, i.e. the differ...
AbstractThe motivating key for this work was the absence of a phenomenological model that can reason...
International audienceDuring cyclic loading, rubber like materials exhibit a stress-softening phenom...
AbstractTo the best of our knowledge, there are no constitutive models that properly describe experi...
International audienceMany rubber like materials present a phenomenon known as Mullins effect. It is...
This thesis work presents a study of the mechanical behavior of soft materials submitted to large de...
Proceedings of the 7th European Conference on constitutive models for rubber, Dublin, Ireland, 20-23...
A micromechanically based non-affine network model for finite rubber elasticity and viscoelasticity ...