Generalised Structure Tensors (GSTs) are used to formulate constitutive models for anisotropic fibre-reinforced materials in which fibres are dispersed. The GST approach has been applied so far to models based on invariant
Biological tissues have been shown to behave isotropically at lower strain values, while at higher s...
Collagen fibres within fibrous soft biological tissues such as artery walls, cartilage, myocardiums,...
Dispersed collagen fibers in fibrous soft biological tissues have a significant effect on the overal...
Generalised Structure Tensors (GSTs) are used to formulate constitutive models for anisotropic fibre...
AbstractSeveral micro-structured biological tissues are characterized by anisotropy. The dependence ...
Abstract Several micro-structured biological tissues are characterized by anisotropy. The dependence...
We discuss analytical and numerical tools for the statistical characterization of the anisotropic st...
This study compares two models that are used to describe the elastic properties of fiber-reinforced ...
In view of a more realistic description of the spatial distribution of the collagen fibers in soft b...
Most soft tissues possess an oriented architecture of collagen fiber bundles, conferring both anisot...
Fiber dispersion in collagenous soft tissues has an important influence on the mechanical response, ...
Les travaux de cette thèse s’inscrivent dans le cadre de la formalisation mathématique des lois de c...
Several constitutive models have been proposed for description of mechanical behaviour of soft tissu...
In many soft biological tissues mechanical strength and anisotropy are determined primarily by the p...
Collagen fibres within fibrous soft biological tissues such as artery walls, cartilage, myocardiums,...
Biological tissues have been shown to behave isotropically at lower strain values, while at higher s...
Collagen fibres within fibrous soft biological tissues such as artery walls, cartilage, myocardiums,...
Dispersed collagen fibers in fibrous soft biological tissues have a significant effect on the overal...
Generalised Structure Tensors (GSTs) are used to formulate constitutive models for anisotropic fibre...
AbstractSeveral micro-structured biological tissues are characterized by anisotropy. The dependence ...
Abstract Several micro-structured biological tissues are characterized by anisotropy. The dependence...
We discuss analytical and numerical tools for the statistical characterization of the anisotropic st...
This study compares two models that are used to describe the elastic properties of fiber-reinforced ...
In view of a more realistic description of the spatial distribution of the collagen fibers in soft b...
Most soft tissues possess an oriented architecture of collagen fiber bundles, conferring both anisot...
Fiber dispersion in collagenous soft tissues has an important influence on the mechanical response, ...
Les travaux de cette thèse s’inscrivent dans le cadre de la formalisation mathématique des lois de c...
Several constitutive models have been proposed for description of mechanical behaviour of soft tissu...
In many soft biological tissues mechanical strength and anisotropy are determined primarily by the p...
Collagen fibres within fibrous soft biological tissues such as artery walls, cartilage, myocardiums,...
Biological tissues have been shown to behave isotropically at lower strain values, while at higher s...
Collagen fibres within fibrous soft biological tissues such as artery walls, cartilage, myocardiums,...
Dispersed collagen fibers in fibrous soft biological tissues have a significant effect on the overal...