P. Mythravaruni scite author profile

Oxidation of aorta by hydroxyl radicals produces structural changes in arterial proteins like elastin and collagen. This in turn results in change in the mechanical response of aorta. In this paper, a thermodynamically consistent constitutive model is developed within the framework of mixture theory, to describe the changes in aorta and isolated elastin with oxidation. The model is then studied under uniaxial extension using experimental data from literature.

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Vulcanization and the mechanical response of rubber

Kundurthi

Mythravaruni

Ravindran

2014

Z. Angew. Math. Phys.

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Failure of Rubber Bearings Under Combined Shear and Compression

Mythravaruni

Volokh

2018

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Rubber bearings, used for seismic isolation of structures, undergo large shear deformations during earthquakes as a result of the horizontal motion of the ground. However, the bearings are also compressed by the weight of the structure and possible traffic on it. Hence, failure analysis of rubber bearings should combine compression and shear. Such combination is considered in the present communication. In order to analyze failure, the strain energy density is enhanced with a limiter, which describes rubber damage. The inception of material instability and the onset of damage are marked by the violation of the condition of strong ellipticity, which is studied in the present work. Results of the studies suggest that horizontal cracks should appear because of the dominant shear deformation in accordance with the experimental observations. It is remarkable that compression delays failure in terms of the critical stretches.

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P. Mythravaruni

Residual stresses reduce pulse wave velocity in arteries

The Effect of Oxidation on the Mechanical Response of Isolated Elastin and Aorta

Vulcanization and the mechanical response of rubber

Failure of Rubber Bearings Under Combined Shear and Compression

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