The behavior of hyperelastic energies depending on an internal parameter, which is a function of the deformation gradient, is discussed. As an example, the analysis of two models where the parameter describes the activation of a tetanized skeletal muscle tissue is presented. In those models, the activation parameter depends on the strain and it is shown the importance of considering the derivative of the parameter with respect to the strain in order to capture the proper stress–strain relations.
Giantesio, G., Musesti, A., Strain-dependent internal parameters in hyperelastic biological materials, <<INTERNATIONAL JOURNAL OF NON-LINEAR MECHANICS>>, 2017; 95 (October 2017): 162-167. [doi:10.1016/j.ijnonlinmec.2017.06.012] [http://hdl.handle.net/10807/103653]
Strain-dependent internal parameters in hyperelastic biological materials
Giantesio, GiuliaPrimo
;Musesti, AlessandroUltimo
2017
Abstract
The behavior of hyperelastic energies depending on an internal parameter, which is a function of the deformation gradient, is discussed. As an example, the analysis of two models where the parameter describes the activation of a tetanized skeletal muscle tissue is presented. In those models, the activation parameter depends on the strain and it is shown the importance of considering the derivative of the parameter with respect to the strain in order to capture the proper stress–strain relations.
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