A compressible anisotropic hyperelastic model with I5 and I7 strain invariants.

Computer Methods in Biomechanics and Biomedical Engineering
M N Wang, F J Liu

Abstract

It is obvious that the mechanical properties of arterial tissue include compressibility, anisotropy, and the fact that the out-of-plane shear modulus is smaller than the shear modulus in the plane of the fibers. However, the last point is rarely considered when it comes to compressible anisotropic hyperelastic models. In order to acquire different shear moduli, we propose a modified hyperelastic model including the influence of strain invariants I5 and I7. The convergence and correctness of this model are verified through the hydrostatic tension test, uniaxial tension test, and shear deformation test. It turns out that our model correctly predicts an anisotropic response and volume change to hydrostatic tensile test and the fact that the out-of-plane shear modulus is always smaller than the shear modulus in the plane of the fibers in shear deformation test. We conclude that the influence of strain invariants I5 and I7 is great, especially in the shear deformation, so that it is necessary to include I5 and I7 in the compressible anisotropic hyperelastic model.

References

Jun 8, 2004·Journal of Biomechanical Engineering·Gerhard A HolzapfelRay W Ogden
Jul 20, 2006·Journal of the Royal Society, Interface·T Christian GasserGerhard A Holzapfel
May 18, 2013·Journal of the Mechanical Behavior of Biomedical Materials·Yuan FengPhilip V Bayly
Aug 12, 2014·Journal of the Mechanical Behavior of Biomedical Materials·D R NolanJ P McGarry
Jun 24, 2015·Journal of the Mechanical Behavior of Biomedical Materials·Juan A PeñaEstefanía Peña
Aug 25, 2015·Annals of Biomedical Engineering·D R Nolan, J P McGarry
Jan 1, 2016·Journal of the Mechanical Behavior of Biomedical Materials·Kevin M MoermanThomas Nagel
Oct 7, 2016·Computer Methods in Biomechanics and Biomedical Engineering·M D GilchristB Pierrat

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