A fully three-dimensional anisotropic elastic model for vascular tissue modelling is here presented. The underlying strain energy density function is assumed to additively decouple into volumetric and deviatoric contributions. A straightforward isotropic neo-Hooke-type law is used to model the deviatoric response of the ground substance, whereas a micro-structurally or rather micro-sphere-based approach will be employed to model the contribution and distribution of fibres within the biological tissue of interest. Anisotropy was introduced by means of the use of von Mises orientation distribution functions. Two different micro-mechanical approaches -- a, say phenomenological, exponential ansatz and a worm-like-chain-based formulation -- are ...
In this contribution, a non-linear viscoelastic anisotropic model for soft biological tissues is pre...
An idealized model of an arterial wall is proposed as a two-layer system. Distinct mechanical respon...
ABSTRACT. State of the art research and treatment of biological tissues require accurate and efficie...
The phenomenological approach to the modelling of the mechanical response of arteries usually assume...
This paper considers numerical simulations of fluid-structure interaction (FSI) problems in hemodyna...
Microsphere-based constitutive models are a helpful tool in the modelling of materials with a micros...
This review article is concerned with the mathematical modelling of the mechanical properties of the...
The final publication is available at Springer via http://dx.doi.org/10.1007/s10237-011-0336-9An ani...
This paper presents an analysis of hyperelastic constitutive models for continuous bodies both from ...
The Holzapfel–Gasser–Ogden (HGO) model for anisotropic hyperelas-tic behaviour of collagen fibre rei...
Enormous progress has been made during recent years in the phenomenological modelling of soft tissue...
International audienceComputational analysis of the nonlinear mechanical properties of anisotropic h...
The overall objective of this thesis is to develop accurate and rigorous constitutive formulations f...
Using the dimension reduction procedure in the three-dimensional elasticity system, we derive a two-...
In this contribution, a non-linear viscoelastic anisotropic model for soft biological tissues is pre...
An idealized model of an arterial wall is proposed as a two-layer system. Distinct mechanical respon...
ABSTRACT. State of the art research and treatment of biological tissues require accurate and efficie...
The phenomenological approach to the modelling of the mechanical response of arteries usually assume...
This paper considers numerical simulations of fluid-structure interaction (FSI) problems in hemodyna...
Microsphere-based constitutive models are a helpful tool in the modelling of materials with a micros...
This review article is concerned with the mathematical modelling of the mechanical properties of the...
The final publication is available at Springer via http://dx.doi.org/10.1007/s10237-011-0336-9An ani...
This paper presents an analysis of hyperelastic constitutive models for continuous bodies both from ...
The Holzapfel–Gasser–Ogden (HGO) model for anisotropic hyperelas-tic behaviour of collagen fibre rei...
Enormous progress has been made during recent years in the phenomenological modelling of soft tissue...
International audienceComputational analysis of the nonlinear mechanical properties of anisotropic h...
The overall objective of this thesis is to develop accurate and rigorous constitutive formulations f...
Using the dimension reduction procedure in the three-dimensional elasticity system, we derive a two-...
In this contribution, a non-linear viscoelastic anisotropic model for soft biological tissues is pre...
An idealized model of an arterial wall is proposed as a two-layer system. Distinct mechanical respon...
ABSTRACT. State of the art research and treatment of biological tissues require accurate and efficie...