Detail publikace
Porovnání konstitutivních modelů pro arteriální vrstvy s rozptylem v orientaci vláken
SKÁCEL, P. BURŠA, J.
Český název
Porovnání konstitutivních modelů pro arteriální vrstvy s rozptylem v orientaci vláken
Anglický název
Comparison of constitutive models of arterial layers with distributed collagen fibre orientations
Typ
článek v časopise ve Web of Science, Jimp
Jazyk
en
Originální abstrakt
Several constitutive models have been proposed for description of mechanical behaviour of soft tissues containing collagen fibres. The model with aligned fibres is modified in this paper to take the dispersion of fibre orientations into account through angular integration and it is compared with the model that is defined through generalized structure tensor. The paper is focused on the effect of fibre dispersion on the resulting stress-strain behaviour predicted by both models analyzed. Analytical calculations are used for the comparison of the mechanical behaviour under a specific biaxial tension mode. The two models have been implemented into commercial finite element code ANSYS via user subroutines and used for numerical simulation resulting in a non-homogeneous stress field. The effects of the fibre dispersion predicted by both models compared differ significantly, e.g., the resulting stress difference between both models is lower than 10% only in the case of extremely small dispersion of collagen fibres orientation. These results are consistent with those of other related literature. The applicability of the model defined through the generalized structure tensor is discussed.
Český abstrakt
Článek se zabývá porovnáním několika konstitutivních modelů pro měkké tkáně s kolagenními vlákny. Ukazuje vliv velikosti rozptylu směrů vláken na výsledky jednotlivých modelů.
Anglický abstrakt
Several constitutive models have been proposed for description of mechanical behaviour of soft tissues containing collagen fibres. The model with aligned fibres is modified in this paper to take the dispersion of fibre orientations into account through angular integration and it is compared with the model that is defined through generalized structure tensor. The paper is focused on the effect of fibre dispersion on the resulting stress-strain behaviour predicted by both models analyzed. Analytical calculations are used for the comparison of the mechanical behaviour under a specific biaxial tension mode. The two models have been implemented into commercial finite element code ANSYS via user subroutines and used for numerical simulation resulting in a non-homogeneous stress field. The effects of the fibre dispersion predicted by both models compared differ significantly, e.g., the resulting stress difference between both models is lower than 10% only in the case of extremely small dispersion of collagen fibres orientation. These results are consistent with those of other related literature. The applicability of the model defined through the generalized structure tensor is discussed.
Klíčová slova česky
mechanika arteriálních stěn; orientace kolageních vláken; konstitutivní modelování; software HYPERFIT; distribuce orientace kolageních vláken
Klíčová slova anglicky
arterial wall mechanics, collagen fibre orientation, constitutive modelling, fibre distribution, hyperfit software
Rok RIV
2014
Vydáno
22.09.2014
Nakladatel
Wroclaw univ technology
Místo
Wroclav, Poland
ISSN
1509-409X
Ročník
2014
Číslo
03
Strany od–do
47–58
Počet stran
12
BIBTEX
@article{BUT111388,
author="Pavel {Skácel} and Jiří {Burša},
title="Comparison of constitutive models of arterial layers with distributed collagen fibre orientations",
year="2014",
volume="2014",
number="03",
month="September",
pages="47--58",
publisher="Wroclaw univ technology",
address="Wroclav, Poland",
issn="1509-409X"
}