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Statements

Subject Item
n2:RIV%2F49777513%3A23520%2F09%3A00502185%21RIV10-GA0-23520___
rdf:type
n14:Vysledek skos:Concept
dcterms:description
The perfect ability of living tissues to control and adapt their mechanical properties to varying external conditions may be an inspiration for designing engineering materials. An interesting example is the smooth muscle tissue since this ?material? is able to change its global mechanical properties considerably by a subtle mechanism within individual muscle cells. Multi-scale continuum models may be useful in designing essentially simpler engineering materials having similar properties. As an illustration we present the model of an incompressible material whose microscopic structure is formed by flexible, soft but incompressible balls connected mutually by linear springs. This simple model, however, shows a nontrivial nonlinear behavior caused by the incompressibility of balls and is very sensitive on some microscopic parameters. It may elucidate the way by which ?small? changes in biopolymer networks within individual muscular cells may control the stiffness of the biological tissue, which outlines The perfect ability of living tissues to control and adapt their mechanical properties to varying external conditions may be an inspiration for designing engineering materials. An interesting example is the smooth muscle tissue since this ?material? is able to change its global mechanical properties considerably by a subtle mechanism within individual muscle cells. Multi-scale continuum models may be useful in designing essentially simpler engineering materials having similar properties. As an illustration we present the model of an incompressible material whose microscopic structure is formed by flexible, soft but incompressible balls connected mutually by linear springs. This simple model, however, shows a nontrivial nonlinear behavior caused by the incompressibility of balls and is very sensitive on some microscopic parameters. It may elucidate the way by which ?small? changes in biopolymer networks within individual muscular cells may control the stiffness of the biological tissue, which outlines
dcterms:title
A model of Engineering Materials Inspired by Biological Tissues A model of Engineering Materials Inspired by Biological Tissues
skos:prefLabel
A model of Engineering Materials Inspired by Biological Tissues A model of Engineering Materials Inspired by Biological Tissues
skos:notation
RIV/49777513:23520/09:00502185!RIV10-GA0-23520___
n3:aktivita
n16:P
n3:aktivity
P(GA106/09/0734)
n3:cisloPeriodika
2
n3:dodaniDat
n7:2010
n3:domaciTvurceVysledku
n8:9901752 n8:9182322 n8:7181418
n3:druhVysledku
n15:J
n3:duvernostUdaju
n13:S
n3:entitaPredkladatele
n5:predkladatel
n3:idSjednocenehoVysledku
301342
n3:idVysledku
RIV/49777513:23520/09:00502185
n3:jazykVysledku
n18:eng
n3:klicovaSlova
living tissues; smooth muscles; prestressed cytoskeleton; tissues viscoelasticity; control of stiffness
n3:klicoveSlovo
n4:tissues%20viscoelasticity n4:control%20of%20stiffness n4:smooth%20muscles n4:living%20tissues n4:prestressed%20cytoskeleton
n3:kodStatuVydavatele
CZ - Česká republika
n3:kontrolniKodProRIV
[71868B85CBE7]
n3:nazevZdroje
Applied and Computational Mechanics
n3:obor
n11:JJ
n3:pocetDomacichTvurcuVysledku
3
n3:pocetTvurcuVysledku
3
n3:projekt
n9:GA106%2F09%2F0734
n3:rokUplatneniVysledku
n7:2009
n3:svazekPeriodika
3
n3:tvurceVysledku
Vychytil, Jan Holeček, Miroslav Moravcová, Fanny
s:issn
1802-680X
s:numberOfPages
12
n17:organizacniJednotka
23520