AbstractIn this paper we present a fully three-dimensional finite strain anisotropic visco-hyperelastic model for ligaments and tendons. The structural model is formulated within the framework of non-linear continuum mechanics and is well-suited for its finite element implementation. This model is based on a local additive decomposition of the stress tensor into initial and non-equilibrium parts as resulted from the assumed structure of the free-energy density function that generalizes Kelvin–Voigt linear viscous models. Also, we use a local multiplicative decomposition of the deformation gradient into volume-preserving and dilatational parts that permits to model the incompressible properties of soft biological tissues. To simulate the vis...
A transversely isotropic visco-hyperelastic constitutive model is provided for soft tissues, which ...
A non-linear visco-elastic constitutive model is adopted to describe the relaxation phenomena of the...
The development of a conceptual framework to test different viscoelastic constitutive laws is presen...
AbstractIn this paper we present a fully three-dimensional finite strain anisotropic visco-hyperelas...
A constitutive model and a finite element formulation for viscoelastic anisotropic materials subject...
In this contribution, a non-linear viscoelastic anisotropic model for soft biological tissues is pre...
Ligaments undergo finite strain displaying hyperelastic behaviour as the initially tangled fibrils p...
A general transversely isotropic viscohyperelastic constitutive law including strain rate effects wa...
Soft biological tissues show a strongly non linear and time-dependent mechanical response and underg...
International audienceThis paper presents a fully three-dimensional constitutive model for anisotrop...
The research presented in this thesis addresses the issue of analytical and numerical aspects of the...
The periodontal ligament (PDL), as other soft biological tissues, shows a strongly nonlinear and tim...
Traction tests on soft tissues show that the shape of the stress strain curves depends on the strain...
AbstractA new strain energy function for the hyperelastic modelling of ligaments and tendons based o...
AbstractThis paper presents constitutive models for the anisotropic, finite-deformation viscoelastic...
A transversely isotropic visco-hyperelastic constitutive model is provided for soft tissues, which ...
A non-linear visco-elastic constitutive model is adopted to describe the relaxation phenomena of the...
The development of a conceptual framework to test different viscoelastic constitutive laws is presen...
AbstractIn this paper we present a fully three-dimensional finite strain anisotropic visco-hyperelas...
A constitutive model and a finite element formulation for viscoelastic anisotropic materials subject...
In this contribution, a non-linear viscoelastic anisotropic model for soft biological tissues is pre...
Ligaments undergo finite strain displaying hyperelastic behaviour as the initially tangled fibrils p...
A general transversely isotropic viscohyperelastic constitutive law including strain rate effects wa...
Soft biological tissues show a strongly non linear and time-dependent mechanical response and underg...
International audienceThis paper presents a fully three-dimensional constitutive model for anisotrop...
The research presented in this thesis addresses the issue of analytical and numerical aspects of the...
The periodontal ligament (PDL), as other soft biological tissues, shows a strongly nonlinear and tim...
Traction tests on soft tissues show that the shape of the stress strain curves depends on the strain...
AbstractA new strain energy function for the hyperelastic modelling of ligaments and tendons based o...
AbstractThis paper presents constitutive models for the anisotropic, finite-deformation viscoelastic...
A transversely isotropic visco-hyperelastic constitutive model is provided for soft tissues, which ...
A non-linear visco-elastic constitutive model is adopted to describe the relaxation phenomena of the...
The development of a conceptual framework to test different viscoelastic constitutive laws is presen...