Add to ORKGWe propose the two-scale hyperelastic model of a material defined at micro-scale. The microstructure, motivated by the arrangement of soft tissues at the cellular level, is formed by an incompressible inclusion and linear elastic elements. The prestress of such structure is maintained by the assumption of constant volume of the inclusion. In the continuum limit, the prestressed microstructure is considered as a single material particle governed by the macroscopic deformation gradient. Thus the strain-energy is obtained as a function of both macro-deformation and micro-prestress. Although we have no analytical formula, an approximation is found using assumptions that hold for soft tissues. It shows clearly the ability of the model to c...
The aim of this paper is to study a model of hyperelastic materials and itsapplications into soft ti...
Cellular materials are of special interest according to their peculiar mechanical properties. In thi...
International audienceConstitutive modelling of soft biological tissues has been the topic of abunda...
We propose the two-scale hyperelastic model of a material defined at micro-scale. The microstructure...
This paper presents the development of a two-scale anisotropic hyperelastic material model whose mic...
For cellular bodies involving large elastic deformations, mesoscopic continuum models that take into...
Fibres in living cells carry the pre-existing tension (so-called prestress) even without external lo...
AbstractWe develop a model of an incompressible material which microscopic structure is formed by fl...
Mesoscopic continuum hyperelastic models for open-cell solids subject to large elastic deformations ...
AbstractTo describe materials with more complex microstructure, generalization of the standard conti...
The perfect ability of living tissues to control and adapt their mechanical properties to varying ex...
Constitutive models for soft tissue mechanics are typically constructed by fitting phenomenological ...
We use the microcontinual approach [1] in description of a hyperelastic material whose actual state ...
For stretch-dominated cellular structures with arbitrarily oriented cell walls made from a homogeneo...
The aim of this paper is to study a model of hyperelastic materials and itsapplications into soft ti...
Cellular materials are of special interest according to their peculiar mechanical properties. In thi...
International audienceConstitutive modelling of soft biological tissues has been the topic of abunda...
We propose the two-scale hyperelastic model of a material defined at micro-scale. The microstructure...
This paper presents the development of a two-scale anisotropic hyperelastic material model whose mic...
For cellular bodies involving large elastic deformations, mesoscopic continuum models that take into...
Fibres in living cells carry the pre-existing tension (so-called prestress) even without external lo...
AbstractWe develop a model of an incompressible material which microscopic structure is formed by fl...
Mesoscopic continuum hyperelastic models for open-cell solids subject to large elastic deformations ...
AbstractTo describe materials with more complex microstructure, generalization of the standard conti...
The perfect ability of living tissues to control and adapt their mechanical properties to varying ex...
Constitutive models for soft tissue mechanics are typically constructed by fitting phenomenological ...
We use the microcontinual approach [1] in description of a hyperelastic material whose actual state ...
For stretch-dominated cellular structures with arbitrarily oriented cell walls made from a homogeneo...
The aim of this paper is to study a model of hyperelastic materials and itsapplications into soft ti...
Cellular materials are of special interest according to their peculiar mechanical properties. In thi...
International audienceConstitutive modelling of soft biological tissues has been the topic of abunda...