BIOMECHANICS TRENDS IN MODELING AND SIMULATION
Dublin Core
Title
BIOMECHANICS TRENDS IN MODELING AND SIMULATION
Subject
BIOMECHANICS TRENDS IN MODELING AND SIMULATION
Description
Abstract Mixture theory has been used for modeling hydrated biological tissues
for several decades. This chapter reviews the basic foundation of mixture theory
as applied to biphasic mixtures consisting of a porous-permeable deformable solid
matrix and an interstitial fluid. Canonical problems of permeation, confined compression,
and unconfined compression are analyzed from theory and compared to
prior experimental measurements on articular cartilage, with an emphasis on studies
that provide validations of theoretical predictions. A brief overview is also provided
of the application of mixture theory to solute transport, reactive kinetics, and growth
and remodeling.
for several decades. This chapter reviews the basic foundation of mixture theory
as applied to biphasic mixtures consisting of a porous-permeable deformable solid
matrix and an interstitial fluid. Canonical problems of permeation, confined compression,
and unconfined compression are analyzed from theory and compared to
prior experimental measurements on articular cartilage, with an emphasis on studies
that provide validations of theoretical predictions. A brief overview is also provided
of the application of mixture theory to solute transport, reactive kinetics, and growth
and remodeling.
Creator
GERHARD A.HOLZAPFEL AND REY W.OGDEN
Files
Collection
Citation
GERHARD A.HOLZAPFEL AND REY W.OGDEN , “BIOMECHANICS TRENDS IN MODELING AND SIMULATION,” Portal Ebook UNTAG SURABAYA, accessed March 15, 2025, https://ebook.untag-sby.ac.id/items/show/460.