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Experimental Mechanics

Published in:

01-06-2014

Transients and Evolution in NiTi

Authors: S. A. Padula II, D. Gaydosh, A. Saleeb, B. Dhakal

Published in: Experimental Mechanics | Issue 5/2014

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Abstract

Many of the applications that seek to utilize shape memory alloys for their unique set of properties inevitably must deal, on some level, with the dimensional instability that is inherent to these materials under cyclic thermomechanical loading conditions. As a result, a better understanding of the transient and evolutionary behavior of a shape memory alloy is critical to both the successful design of useful actuation systems and development of accurate material models that can adequately capture the types of dimensional instability that can arise during component design. To this end, a set of experiments were conducted wherein the temperature cycling excursion was held fixed while the applied stress was varied. The results indicated that the extent of strain evolution produced under the initially applied stress has a significant impact on both the amount of transient that is observed as well as the rate of evolution observed under subsequent stress levels. In particular, lowering the applied stress to 50 MPa after cycling under an initial stress of 75 MPa did not stabilize the strain. However, lowering the applied stress to 50 MPa after cycling under an initial stress of 150 MPa produced a nearly saturated strain/temperature response. The thermomechanical observations are discussed in terms of the nature of strain evolution and its connection to the concept of a local/global minimization of the energy of the system, however, the exact mechanisms associated with these strain evolutions were not determined.

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Title: Transients and Evolution in NiTi
Authors: S. A. Padula II
D. Gaydosh
A. Saleeb
B. Dhakal
Publication date: 01-06-2014
Publisher: Springer US
Published in: Experimental Mechanics / Issue 5/2014
Print ISSN: 0014-4851
Electronic ISSN: 1741-2765
DOI: https://doi.org/10.1007/s11340-013-9840-4

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