Modelling of poro-visco-elastic biological systems

Y. Bilotsky; M. Gasik

doi:10.1088/1742-6596/633/1/012134

Modelling of poro-visco-elastic biological systems

Y. Bilotsky
, M. Gasik

Kemian tekniikan ja metallurgian laitos

Tutkimustuotos: Lehtiartikkeli › Article › Scientific › vertaisarvioitu

5 Sitaatiot (Scopus)

56 Lataukset (Pure)

Abstrakti

The research of mechanical properties of poro-visco-elastic biomaterials is an important task, especially for tailoring the best conditions for in-growth and healing of implants. In this work we analysed the behaviour of biomaterials under different static and dynamic loading regimes, in «dry» and «wet» conditions. Retrieved data revealed nonlinear relations between applied force and resulting deformation, with time and frequency dependence. These features were described by a nonlinear model, which reasonably fits mentioned peculiarities. The simplified model was validated with numerical simulations using COMSOL software. Upon validation it allows incorporation of the experimental data obtained by biomechanical spectroscopy towards prediction of biomaterials behaviour in «in vitro» conditions, with the purpose to extrapolate to clinically-relevant environment.

Alkuperäiskieli	Englanti
Artikkeli	012134
Sivumäärä	4
Julkaisu	Journal of Physics: Conference Series
Vuosikerta	633
Numero	1
DOI - pysyväislinkit	https://doi.org/10.1088/1742-6596/633/1/012134
Tila	Julkaistu - 21 syysk. 2015
OKM-julkaisutyyppi	A1 Alkuperäisartikkeli tieteellisessä aikakauslehdessä

Pääsy asiakirjaan

10.1088/1742-6596/633/1/012134

Bilotsky_2015_J._Phys. _Conf._Ser._633_012134Final published version, 1,17 MBLisenssi: CC BY

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AU - Gasik, M.

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AB - The research of mechanical properties of poro-visco-elastic biomaterials is an important task, especially for tailoring the best conditions for in-growth and healing of implants. In this work we analysed the behaviour of biomaterials under different static and dynamic loading regimes, in «dry» and «wet» conditions. Retrieved data revealed nonlinear relations between applied force and resulting deformation, with time and frequency dependence. These features were described by a nonlinear model, which reasonably fits mentioned peculiarities. The simplified model was validated with numerical simulations using COMSOL software. Upon validation it allows incorporation of the experimental data obtained by biomechanical spectroscopy towards prediction of biomaterials behaviour in «in vitro» conditions, with the purpose to extrapolate to clinically-relevant environment.

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JO - Journal of Physics: Conference Series

JF - Journal of Physics: Conference Series

IS - 1

M1 - 012134

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Modelling of poro-visco-elastic biological systems

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