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Journal of Engineering Mathematics

Erschienen in:

13.03.2015

Uniaxial load analysis under stretch-dependent fiber remodeling applicable to collagenous tissue

verfasst von: Heiko Topol, Hasan Demirkoparan, Thomas J. Pence, Alan Wineman

Erschienen in: Journal of Engineering Mathematics | Ausgabe 1/2015

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Abstract

This article investigates the relation between stress and deformation of a fibrous material that is subjected to a constant fiber creation rate and deformation-dependent fiber dissolution rate. Experimental studies show such behavior in certain highly collagenous tissue. The investigation focuses on two different constitutive hypotheses: (a) fibers that reassemble in an undeformed state and (b) fibers that reassemble in a pre-strained state that is equal to the strain state of the surrounding matrix. The matrix component of the material is treated as isotropic and hyperelastic, and its mechanical properties remain constant in time. Separate processes of step displacement and step load are considered. In each case, an initial state of homeostasis is disrupted by the step input. The system then evolves to a new state of homeostasis that can be predicted in advance. The approach to this new homeostasis requires the consideration of a Volterra-type integral equation.

Vorheriger Artikel On the computation of the Hashin–Shtrikman bounds for transversely isotropic two-phase linear elastic fibre-reinforced composites

Nächster Artikel Azimuthal shear of doubly fibre-reinforced, non-linearly elastic cylindrical tubes

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Titel: Uniaxial load analysis under stretch-dependent fiber remodeling applicable to collagenous tissue
verfasst von: Heiko Topol
Hasan Demirkoparan
Thomas J. Pence
Alan Wineman
Publikationsdatum: 13.03.2015
Verlag: Springer Netherlands
Erschienen in: Journal of Engineering Mathematics / Ausgabe 1/2015
Print ISSN: 0022-0833
Elektronische ISSN: 1573-2703
DOI: https://doi.org/10.1007/s10665-014-9771-9

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