It is apparent from the literature that the density of cross-links in collagenous tissue has a stiffening effect on the mechanical response of the tissue. This paper represents an initial attempt to characterize this effect on the elastic response, specifically in respect of arterial tissue. Two approaches are presented. First, a simple phenomenological continuum model with a cross-link-dependent stiffness is considered, and the influence of the cross-link density on the response in uniaxial tension is illustrated. In the second approach, a 3D model is developed that accounts for the relative orientation and stiffness of (two families of) collagen fibers and cross-links and their coupling using an invariant-based strain-energy function. Thi...
The mechanical behavior of the cerebral arterial tissue is governed by the properties of its constit...
A multiscale mechanical model for arterial walls is proposed to describe their age-dependent elastic...
Mechanics of collagen bio-structures at different scales (nano, micro, and macro) is addressed, aim...
It is apparent from the literature that the density of cross-links in collagenous tissue has a stiff...
In this paper the influence of cross-links between collagen molecules on the elastic mechanical beha...
Constitutive relations are fundamental to the solution of problems in continuum mechanics, and are r...
\u3cp\u3eExogenous cross-linking of soft collagenous tissues is a common method for biomaterial deve...
Several constitutive models have been proposed for description of mechanical behaviour of soft tissu...
A fundamental understanding of the mechanical properties of the extracellular matrix (ECM) is critic...
We propose a mechanical model to account for progressive damage in collagen fibres within fibrous so...
International audienceIn this paper we develop a new constitutive law for the description of the (pa...
This review article is concerned with the mathematical modelling of the mechanical properties of the...
In this study, a new constitutive model is developed to describe the hyperelastic behavior of collag...
As the interaction between tissue adaptation and the mechanical condition within tissues is complex,...
The mechanical behavior of the cerebral arterial tissue is governed by the properties of its constit...
A multiscale mechanical model for arterial walls is proposed to describe their age-dependent elastic...
Mechanics of collagen bio-structures at different scales (nano, micro, and macro) is addressed, aim...
It is apparent from the literature that the density of cross-links in collagenous tissue has a stiff...
In this paper the influence of cross-links between collagen molecules on the elastic mechanical beha...
Constitutive relations are fundamental to the solution of problems in continuum mechanics, and are r...
\u3cp\u3eExogenous cross-linking of soft collagenous tissues is a common method for biomaterial deve...
Several constitutive models have been proposed for description of mechanical behaviour of soft tissu...
A fundamental understanding of the mechanical properties of the extracellular matrix (ECM) is critic...
We propose a mechanical model to account for progressive damage in collagen fibres within fibrous so...
International audienceIn this paper we develop a new constitutive law for the description of the (pa...
This review article is concerned with the mathematical modelling of the mechanical properties of the...
In this study, a new constitutive model is developed to describe the hyperelastic behavior of collag...
As the interaction between tissue adaptation and the mechanical condition within tissues is complex,...
The mechanical behavior of the cerebral arterial tissue is governed by the properties of its constit...
A multiscale mechanical model for arterial walls is proposed to describe their age-dependent elastic...
Mechanics of collagen bio-structures at different scales (nano, micro, and macro) is addressed, aim...