We compare two constitutive models proposed to model the elastinous constituents of an artery. Holzapfel and Weizsäcker [1998. Biomechanical behavior of the arterial wall and its numerical characterization. Comput. Biol. Med. 28, 377-392] attribute a neo-Hookean response, i.e. Psi=c(I(1)-3)), to the elastin whilst Zulliger et al. [2004a. A strain energy function for arteries accounting for wall composition and structure. J. Biomech. 37, 989-1000] propose Psi=c(I(1)-3)(3/2). We analyse these constitutive models for two specific cases: (i) uniaxial extension of an elastinous sheet; (ii) inflation of a cylindrical elastinous membrane. For case (i) we illustrate the functional relationships between: (a) the Cauchy stress (CS) and the Green-Lagr...
To perform realistic finite element simulations of cardiovascular surgical procedures (such as ballo...
A non-linear isotropic finite element model of an elastic arterial wall is developed within the ANSY...
The mechanical integrity of the arterial wall is vital to the health of the individual. This integr...
Elastin and collagen have been described as the dominant passive load bearing proteins in the artery...
Earlier experimental work on decellularized arteries revealed the existence of significant residual ...
An idealized model of an arterial wall is proposed as a two-layer system. Distinct mechanical respon...
Arterial tissue is constantly remodeling in order to maintain homeostasis or after disease or injury...
Residual strains in the arterial wall bring extra challenges to the mechanical characterization of a...
International audienceIn this paper we develop a new constitutive law for the description of the (pa...
Thesis (Ph.D.)--Boston UniversityThe dynamic mechanical behavior of arteries is essential to a prope...
Identification of a Strain Energy Function (SEF) is used when describing the complex mechanical prop...
Elastin provides many tissues with remarkable resilience and longevity. In elastic arteries such as ...
International audienceThe mechanical integrity of arteries is of prime importance, for a proper oxyg...
This review article is concerned with the mathematical modelling of the mechanical properties of the...
Aortic elastin allows arterial expansion on systole and subsequent elastic recoil during diastole, p...
To perform realistic finite element simulations of cardiovascular surgical procedures (such as ballo...
A non-linear isotropic finite element model of an elastic arterial wall is developed within the ANSY...
The mechanical integrity of the arterial wall is vital to the health of the individual. This integr...
Elastin and collagen have been described as the dominant passive load bearing proteins in the artery...
Earlier experimental work on decellularized arteries revealed the existence of significant residual ...
An idealized model of an arterial wall is proposed as a two-layer system. Distinct mechanical respon...
Arterial tissue is constantly remodeling in order to maintain homeostasis or after disease or injury...
Residual strains in the arterial wall bring extra challenges to the mechanical characterization of a...
International audienceIn this paper we develop a new constitutive law for the description of the (pa...
Thesis (Ph.D.)--Boston UniversityThe dynamic mechanical behavior of arteries is essential to a prope...
Identification of a Strain Energy Function (SEF) is used when describing the complex mechanical prop...
Elastin provides many tissues with remarkable resilience and longevity. In elastic arteries such as ...
International audienceThe mechanical integrity of arteries is of prime importance, for a proper oxyg...
This review article is concerned with the mathematical modelling of the mechanical properties of the...
Aortic elastin allows arterial expansion on systole and subsequent elastic recoil during diastole, p...
To perform realistic finite element simulations of cardiovascular surgical procedures (such as ballo...
A non-linear isotropic finite element model of an elastic arterial wall is developed within the ANSY...
The mechanical integrity of the arterial wall is vital to the health of the individual. This integr...