A micromorphic continuum formulation for cardiac tissue mechanics
Abstract eng: The material composition of cardiac tissue is highly heterogeneous and non-uniform in terms of its elastic and anisotropic properties. In contrast to classical models, generalized continuumbased formulations can account for higher-order effects arising from heterogeneous material behaviour by linking them to extra degrees of freedom and corresponding additional strain and stress quantities. Here, we want to adopt a generalized continuum framework described in Sansour et al. (2010) which is based on the mathematical description of a combined macro- and micro-space. The approach introduces additional degrees of freedom which constitute a so-called micromorphic deformation. The ability to implicitly account for scale-dependent higher-order deformation effects in the constitutive law gives this approach an advanced material description over classical formulations.
Contributors:
Publisher:
Taylor and Francis Group, London, UK
Conference Title:
Conference Title:
Sixth International Conference on Structural Engineering, Mechanics and Computation
Conference Venue:
Cape Town, South Africa
Conference Dates:
2016-09-05 / 2016-09-07
Rights:
Text je chráněný podle autorského zákona č. 121/2000 Sb.
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Record created 2016-09-20, last modified 2016-09-20