Khalil Khanafer scite author profile

Tensile tests on Polydimethylsiloxane (PDMS) materials were conducted to illustrate the effects of mixing ratio, definition of the stress-strain curve, and the strain rate on the elastic modulus and stress-strain curve. PDMS specimens were prepared according to the ASTM standards for elastic materials. Our results indicate that the physiological elastic modulus depends strongly on the definition of the stress-strain curve, mixing ratio, and the strain rate. For various mixing ratios and strain rates, true stress-strain definition results in higher stress and elastic modulus compared with engineering stress-strain and true stress-engineering strain definitions. The elastic modulus increases as the mixing ratio increases up-to 9:1 ratio after which the elastic modulus begins to decrease even as the mixing ratio continues to increase. The results presented in this study will be helpful to assist the design of in vitro experiments to mimic blood flow in arteries and to understand the complex interaction between blood flow and the walls of arteries using PDMS elastomer.

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Tear size and location impacts false lumen pressure in an ex vivo model of chronic type B aortic dissection

Tsai

Schlicht

Khanafer

et al. 2008

Journal of Vascular Surgery

180

150

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Khalil Khanafer

Buoyancy-driven heat transfer enhancement in a two-dimensional enclosure utilizing nanofluids

A critical synthesis of thermophysical characteristics of nanofluids

Effects of strain rate, mixing ratio, and stress–strain definition on the mechanical behavior of the polydimethylsiloxane (PDMS) material as related to its biological applications

Tear size and location impacts false lumen pressure in an ex vivo model of chronic type B aortic dissection

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