This paper introduces a model for the mechanical response of anisotropic soft materials undergoing large inelastic deformations. The composite is constituted by a soft isotropic matrix reinforced with stiff fibres, that can evolve independently from each other. The constitutive equations are provided in terms of the free energy density and the dissipation density which are both required to be thermodynamically consistent and structurally frame-indifferent, i.e., they must be independent of a rotation overimposed on the natural state. This is in contrast to many of the currently used inelastic models for soft fiber-reinforced materials which do not deal with the lack of uniqueness of the natural state. A constraint between the inelastic spin...
We present a continuum model to describe the reorientation of an anisotropic material structure, cha...
In many soft biological tissues mechanical strength and anisotropy are determined primarily by the p...
A constitutive model and a finite element formulation for viscoelastic anisotropic materials subject...
AbstractThis paper presents constitutive models for the anisotropic, finite-deformation viscoelastic...
International audienceThis paper presents a fully three-dimensional constitutive model for anisotrop...
The paper discusses a constitutive model for finite deformation anisotropic elasto-plasticity, withi...
There has been increasing experimental evidence of non-affine elastic deformation mechanisms in biol...
AbstractSoft biological tissues are sometimes composed of thin and stiff collagen fibers in a soft m...
This work defines an incompressible, hyperelastic theory of anisotropic soft materials at finite str...
We highlight some mechanical aspects of the coupling among deformation, fluid flow, structural evolu...
We discuss analytical and numerical tools for the statistical characterization of the anisotropic st...
In this contribution, a non-linear viscoelastic anisotropic model for soft biological tissues is pre...
In this work, a continuum constitutive framework for the mechanical modelling of soft tissues that i...
The phenomenological approach to the modelling of the mechanical response of arteries usually assume...
We present a continuum model to describe the reorientation of an anisotropic material structure, cha...
In many soft biological tissues mechanical strength and anisotropy are determined primarily by the p...
A constitutive model and a finite element formulation for viscoelastic anisotropic materials subject...
AbstractThis paper presents constitutive models for the anisotropic, finite-deformation viscoelastic...
International audienceThis paper presents a fully three-dimensional constitutive model for anisotrop...
The paper discusses a constitutive model for finite deformation anisotropic elasto-plasticity, withi...
There has been increasing experimental evidence of non-affine elastic deformation mechanisms in biol...
AbstractSoft biological tissues are sometimes composed of thin and stiff collagen fibers in a soft m...
This work defines an incompressible, hyperelastic theory of anisotropic soft materials at finite str...
We highlight some mechanical aspects of the coupling among deformation, fluid flow, structural evolu...
We discuss analytical and numerical tools for the statistical characterization of the anisotropic st...
In this contribution, a non-linear viscoelastic anisotropic model for soft biological tissues is pre...
In this work, a continuum constitutive framework for the mechanical modelling of soft tissues that i...
The phenomenological approach to the modelling of the mechanical response of arteries usually assume...
We present a continuum model to describe the reorientation of an anisotropic material structure, cha...
In many soft biological tissues mechanical strength and anisotropy are determined primarily by the p...
A constitutive model and a finite element formulation for viscoelastic anisotropic materials subject...