AbstractConstitutive modeling of biological tissues plays an important role in the understanding of tissue behavior and the development of synthetic materials for medical and bio-inspired applications. A structural continuum model that incorporates principal structural features of the tissue can potentially provide the link between microstructure and the macroscopic mechanical response of biological tissues. For most soft biological tissues, including arterial walls and skin tissue, the main load-carrying constituent is presumed to be the distributed collagen fibers embedded in a base matrix. It is believed that the organization of the collagen fibers gives rise to the anisotropy of the material. In this paper, a semi-structural constitutiv...
Enormous progress has been made during recent years in the phenomenological modelling of soft tissue...
This paper investigates on the relationship between the arrangement of collagen fibers within soft t...
Load-bearing soft tissues are abundant throughout the human body, including such diverse examples as...
AbstractConstitutive modeling of biological tissues plays an important role in the understanding of ...
AbstractSeveral micro-structured biological tissues are characterized by anisotropy. The dependence ...
Abstract Several micro-structured biological tissues are characterized by anisotropy. The dependence...
In this contribution, a non-linear viscoelastic anisotropic model for soft biological tissues is pre...
Evolutionary processes in biological tissue, such as adaptation or remodeling, represent an enterpri...
In view of a more realistic description of the spatial distribution of the collagen fibers in soft b...
The development of accurate constitutive models of fibrous soft-tissues is a challenging problem. M...
In many fiber-reinforced tissues, collagen fibers are embedded within a glycosaminoglycan-rich extra...
This study compares two models that are used to describe the elastic properties of fiber-reinforced ...
The final publication is available at Springer via http://dx.doi.org/10.1007/s10237-011-0336-9An ani...
We present a mathematical model of structural reorganisation in a fibre-reinforced composite materia...
Despite distinct mechanical functions, biological soft tissues have a common microstructure in which...
Enormous progress has been made during recent years in the phenomenological modelling of soft tissue...
This paper investigates on the relationship between the arrangement of collagen fibers within soft t...
Load-bearing soft tissues are abundant throughout the human body, including such diverse examples as...
AbstractConstitutive modeling of biological tissues plays an important role in the understanding of ...
AbstractSeveral micro-structured biological tissues are characterized by anisotropy. The dependence ...
Abstract Several micro-structured biological tissues are characterized by anisotropy. The dependence...
In this contribution, a non-linear viscoelastic anisotropic model for soft biological tissues is pre...
Evolutionary processes in biological tissue, such as adaptation or remodeling, represent an enterpri...
In view of a more realistic description of the spatial distribution of the collagen fibers in soft b...
The development of accurate constitutive models of fibrous soft-tissues is a challenging problem. M...
In many fiber-reinforced tissues, collagen fibers are embedded within a glycosaminoglycan-rich extra...
This study compares two models that are used to describe the elastic properties of fiber-reinforced ...
The final publication is available at Springer via http://dx.doi.org/10.1007/s10237-011-0336-9An ani...
We present a mathematical model of structural reorganisation in a fibre-reinforced composite materia...
Despite distinct mechanical functions, biological soft tissues have a common microstructure in which...
Enormous progress has been made during recent years in the phenomenological modelling of soft tissue...
This paper investigates on the relationship between the arrangement of collagen fibers within soft t...
Load-bearing soft tissues are abundant throughout the human body, including such diverse examples as...