Title of article
Application of a three-dimensional poroelastic BEM to modeling the biphasic mechanics of cell–matrix interactions in articular cartilage Original Research Article
Author/Authors
Mansoor A. Haider، نويسنده , , Farshid Guilak، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2007
Pages
12
From page
2999
To page
3010
Abstract
Articular cartilage exhibits viscoelasticity in response to mechanical loading that is well described using biphasic or poroelastic continuum models. To date, boundary element methods (BEMs) have not been employed in modeling biphasic tissue mechanics. A three-dimensional direct poroelastic BEM, formulated in the Laplace transform domain, is applied to modeling stress relaxation in cartilage. Macroscopic stress relaxation of a poroelastic cylinder in uni-axial confined compression is simulated and validated against a theoretical solution. Microscopic cell deformation due to poroelastic stress relaxation is also modeled. An extended Laplace inversion method is employed to accurately represent mechanical responses in the time domain.
Keywords
Boundary element method , Biphasic theory , Articular cartilage , Cells , Poroelasticity
Journal title
Computer Methods in Applied Mechanics and Engineering
Serial Year
2007
Journal title
Computer Methods in Applied Mechanics and Engineering
Record number
893972
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