International audienceTwo different viscoelastic frameworks adapted to large strain rate-dependent response of elastomers are compared; for each approach, a simple model is derived. Within the Finite Linear Viscoelasticity theory, a time convolution integral model based on an extension to solid of the K-BKZ model is proposed. Considering the multiplicative split of the deformation gradient into elastic and inelastic parts, an internal variable model based on a large strain version of the Standard Linear Solid model is considered. In both cases, the strain energy functions involved are chosen neo-Hookean, and then each model possesses three material parameters: two stiffnesses and a viscosity parameter. These parameters are set to ensure the...
International audienceThe 1D limit of a 3D visco-hyperelastic model is discussed and validated using...
A class of viscoelastoplastic constitutive models is derived from the maximum inelastic dissipation ...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1999.Include...
AbstractA visco-hyperelastic constitutive equation in integral form is proposed to describe the larg...
In this paper we develop a new constitutive model to describe the viscoelastic response of elastomer...
International audienceThis paper presents a model of thermo-mechanical behaviour of viscoelastic ela...
Background Understanding the mechanical response of elastomers to applied deformation at different s...
A novel three-dimensional finite strain viscohyperelastic constitutive model is proposed to capture ...
International audienceThe viscoelastic response predicted by linearized internal variables models in...
There are some materials in nature that experience deformations that are not elastic. Viscoelastic m...
Based on the internal variable theory, a viscoelastic constitutive model of a highly deformable cont...
Abstract Constitutive equations for finite elastic-plastic deformation of polymers and metals are us...
The mechanical response of elastomers is known for its non-linearity depending on the strain level b...
A constitutive model for large strain deformation of semicrystalline polymers has been formulated to...
Non-linearity, loading rate, as well as temperature and pressure dependency present major challenges...
International audienceThe 1D limit of a 3D visco-hyperelastic model is discussed and validated using...
A class of viscoelastoplastic constitutive models is derived from the maximum inelastic dissipation ...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1999.Include...
AbstractA visco-hyperelastic constitutive equation in integral form is proposed to describe the larg...
In this paper we develop a new constitutive model to describe the viscoelastic response of elastomer...
International audienceThis paper presents a model of thermo-mechanical behaviour of viscoelastic ela...
Background Understanding the mechanical response of elastomers to applied deformation at different s...
A novel three-dimensional finite strain viscohyperelastic constitutive model is proposed to capture ...
International audienceThe viscoelastic response predicted by linearized internal variables models in...
There are some materials in nature that experience deformations that are not elastic. Viscoelastic m...
Based on the internal variable theory, a viscoelastic constitutive model of a highly deformable cont...
Abstract Constitutive equations for finite elastic-plastic deformation of polymers and metals are us...
The mechanical response of elastomers is known for its non-linearity depending on the strain level b...
A constitutive model for large strain deformation of semicrystalline polymers has been formulated to...
Non-linearity, loading rate, as well as temperature and pressure dependency present major challenges...
International audienceThe 1D limit of a 3D visco-hyperelastic model is discussed and validated using...
A class of viscoelastoplastic constitutive models is derived from the maximum inelastic dissipation ...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Mechanical Engineering, 1999.Include...