Analytical investigation of strain loading frequency effect on stress-strain-temperature relationship of shape-memory alloy

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Authors

  • T. Ikeda Department of Aerospace Engineering, Nagoya University, Japan

Abstract

In this paper a set of simple governing equations of shape-memory alloys was derived by introducing some assumptions and a formula giving temperature variation was obtained by integrating one of the governing equations. The factors affecting the temperature variation depending on loading frequency were analytically investigated from the formula. The obtained temperature variation agreed qualitatively with the measured data. The calculated stress-strain-temperature relationship also agreed qualitatively with the measured data. It was found from the formula that the temperature vibrates sinusoidally and approaches a certain value asymptotically, and that the temperature variation is affected by the ratio of frequency to heat transfer and the ratio of latent heat to generated heat.

Keywords:

shape memory alloys, phase transformation, frequency dependence, analytical investigation, thermo-mechanical properties