International audienceThe idea in this paper is to build a class of constitutive equations for highly compressible isotropic materials that, among others, are capable to describe a zero apparent Poisson’s ratio in the whole finite strain range, not only for moderate straining. This remarkable property is, for instance, observed in many soft materials with micro-structures such as sponges and polymeric foams with high porosities. It would then be suitable to describe their behavior within a macroscopic modeling framework. More specifically, herein by means of elementary considerations, we deduce adequate forms of strain-energy functions that are a priori decomposed into purely volumetric and volume-preserving parts. A class of compressible h...
Incompressible nonlinearly hyperelastic materials are rarely simulated in finite element numerical e...
AbstractThe present paper is focused on the development of a constitutive model for the computationa...
International audienceIn comparing a material's resistance to distort under mechanical load rather t...
International audienceThe idea in this paper is to build a class of constitutive equations for highl...
The mechanical response of a homogeneous isotropic linearly elastic material can be fully characteri...
We propose a simple mathematical model to describe isotropic auxetic materials in the framework of t...
Rubbery foams and similar highly compressible rubbery solids form an important class of materials fo...
Finite element simulations of rubbers and biological soft tissue usually assume that the material be...
Finite element simulations of rubbers and biological soft tissue usually assume that the material be...
AbstractIn this paper, an exponential framework for strain energy density functions of elastomers an...
An incremental (or tangent) bulk modulus for finite isotropic elasticity is defined which compares a...
AbstractStarting from the general expression of the free-energy function of a saturated porous mediu...
Initial stresses originate in soft materials by the occurrence of misfits in the undeformed microstr...
In comparing a material's resistance to distort under mechanical load rather than to alter in volume...
We calculate both the micromechanical response and bulk elastic constants of composites of rods embe...
Incompressible nonlinearly hyperelastic materials are rarely simulated in finite element numerical e...
AbstractThe present paper is focused on the development of a constitutive model for the computationa...
International audienceIn comparing a material's resistance to distort under mechanical load rather t...
International audienceThe idea in this paper is to build a class of constitutive equations for highl...
The mechanical response of a homogeneous isotropic linearly elastic material can be fully characteri...
We propose a simple mathematical model to describe isotropic auxetic materials in the framework of t...
Rubbery foams and similar highly compressible rubbery solids form an important class of materials fo...
Finite element simulations of rubbers and biological soft tissue usually assume that the material be...
Finite element simulations of rubbers and biological soft tissue usually assume that the material be...
AbstractIn this paper, an exponential framework for strain energy density functions of elastomers an...
An incremental (or tangent) bulk modulus for finite isotropic elasticity is defined which compares a...
AbstractStarting from the general expression of the free-energy function of a saturated porous mediu...
Initial stresses originate in soft materials by the occurrence of misfits in the undeformed microstr...
In comparing a material's resistance to distort under mechanical load rather than to alter in volume...
We calculate both the micromechanical response and bulk elastic constants of composites of rods embe...
Incompressible nonlinearly hyperelastic materials are rarely simulated in finite element numerical e...
AbstractThe present paper is focused on the development of a constitutive model for the computationa...
International audienceIn comparing a material's resistance to distort under mechanical load rather t...