Location: Demiray, 1981 @ 4ad277145862 / demiray_1981.cellml

Author:
jlaw060 <jlaw060@bioeng203.bioeng.auckland.ac.nz>
Date:
2009-06-12 13:30:48+12:00
Desc:
removed publication link
Permanent Source URI:
https://models.physiomeproject.org/workspace/demiray_1981/rawfile/4ad277145862d51e1450d6dfbdc9174b6b84aa86/demiray_1981.cellml

<?xml version="1.0" encoding="UTF-8"?>
<!--  FILE :  demiray_model_1981.xml

CREATED :  11th November 2004

LAST MODIFIED : 27th November 2004

AUTHOR :  JaeHoon Chung
          The Bioengineering Institute
          The University of Auckland
          
MODEL STATUS :  This model conforms to the CellML 1.0 Specification released on
10th August 2001, and the 16/01/2002 CellML Metadata 1.0 Specification.

DESCRIPTION :   This is a CellML version of the Exponential constitutive material law, defining the relation between the eight independent strain components and the stress components. It is assumed that the strain components will be controlled externally by the application using this CellML model.

CHANGES:  
27/11/04 - CML - added some more publication data and altered name to match the model repository template.
   
-->
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<documentation xmlns="http://cellml.org/tmp-documentation">
<article>
  <articleinfo>
  <title>Exponential Constitutive Material Law</title>
  <author>
    <firstname>JaeHoon</firstname>
          <surname>Chung</surname>
    <affiliation>
      <shortaffil>Bioengineering Institute, University of Auckland</shortaffil>
    </affiliation>
  </author>
</articleinfo>
  <section id="sec_status">
    <title>Model Status</title>
    <para>
            This model contains no ODEs so can not be solved in available software.
          </para>
<para>
ValidateCellML verifies this model as valid CellML with full unit consistency.
</para>
  </section>
  <sect1 id="sec_structure">
<title>Model Structure</title>

<para>
This exponential material law for isotropic soft biological material was first proposed by H. Demiray in 1981 (see full publication details  below). From the stochastic models for the elastic behaviour of biological tissues proposed by Soong and Huang (<emphasis>A Stochastic Model for Biological Tissue Elasticity in Simple Elongation</emphasis>, Journal of Biomechanics, 6, p451-458, 1973) and Lanir (<emphasis>A Structural Theory for the Homogenous Biaxial Stress-Strain Relationships in Flat Collagenous Tissues</emphasis>, Journal of Biomechanics, 12, p423-436, 1979), Demiray observed the form of the strain energy density function to be an exponential function of the first invariant (trace) of the right Cauchy-Green deformation tensor, I1. This argument is further supported by Fung's statement that the strain energy function of soft biological tissues in a one-dimensional case is an exponential function of the stretch ratio (<emphasis>Elasticity of Soft Tissues in Simple Elongation</emphasis>, American Journal of Physiology, 213, p1532-1544, 1967).
</para>

<para> 
Demiray assumed that biological materials were elastic, homogenous, isotropic and incompressible. Like the Neo-Hookean material law (a special case of the <ulink url="${HTML_EXMPL_MOONEY_RIVLIN_LAW}">The Mooney-Rivlin Constitutive Material Law, 1951</ulink>, this exponential constitutive law is a function of only the axial Green-Lagrange strain components, and hence it does not penalise shear deformations. 
</para>

<para>
The model has been described here in CellML (the raw CellML description of the Demiray 1981 model can be downloaded in various formats as described in <xref linkend="sec_download_this_model"/>).     
</para>

<para>
The complete original paper reference is cited below:
</para>

<para>
Large deformation analysis of some soft biological tissues, H. Demiray, 1981, 
            <emphasis>Journal of Biomechanical Engineering</emphasis>
          ,103, 73-78.  (Unfortunately this article doesn't appear to be available as an online version).  <ulink url="http://www.ncbi.nlm.nih.gov/entrez/query.fcgi?cmd=Retrieve&amp;db=PubMed&amp;list_uids=7278185&amp;dopt=Abstract">PubMed ID: 7278185</ulink>
</para>

</sect1>
</article>
</documentation>
    
  

  <!-- Global units -->
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    <unit units="dimensionless"/>
  </units>
  <units name="stress">
    <unit units="dimensionless"/>
  </units>
  <units name="pole">
    <unit units="dimensionless"/>
  </units>
  <units name="curvature">
    <unit units="dimensionless"/>
  </units>
  <units name="scale">
    <unit units="dimensionless"/>
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    <!-- Variables we expect to be set/controlled externally -->
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    <variable units="strain" private_interface="out" name="E22"/>
    <variable units="strain" private_interface="out" name="E33"/>
    <variable units="strain" private_interface="out" name="E12"/>
    <variable units="strain" private_interface="out" name="E13"/>
    <variable units="strain" private_interface="out" name="E23"/>
    <variable units="strain" private_interface="out" name="c1" initial_value="0"/>
    <variable units="strain" private_interface="out" name="c2" initial_value="0"/>

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    <variable units="stress" public_interface="out" private_interface="in" name="Tdev22"/>
    <variable units="stress" public_interface="out" private_interface="in" name="Tdev33"/>
    <variable units="stress" public_interface="out" private_interface="in" name="Tdev12"/>
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    <variable units="stress" public_interface="out" private_interface="in" name="Tdev23"/>
    
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    <variable units="strain" public_interface="in" name="E22"/>
    <variable units="strain" public_interface="in" name="E33"/>
    <variable units="strain" public_interface="in" name="E12"/>
    <variable units="strain" public_interface="in" name="E13"/>
    <variable units="strain" public_interface="in" name="E23"/>
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    <variable units="strain" public_interface="in" name="c2"/>

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    <variable units="stress" public_interface="out" name="Tdev22"/>
    <variable units="stress" public_interface="out" name="Tdev33"/>
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            Large deformation analysis of some soft biological tissues
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