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Effect of transformation volume contraction on the toughness of superelastic shape memory alloys

journal contribution
posted on 2002-01-01, 00:00 authored by W Yan, C Wang, X Zhang, Y W Mai
Shape memory alloys (SMAs) exhibit two very important properties: shape memory phenomenon and superelastic deformation due to intrinsic thermoelastic martensitic transformation. To fully exploit the potential of SMAs in developing functional structures or smart structures in mechanical and biomechanical engineering, it is important to understand and quantify the failure mechanisms of SMAs. This paper presents a theoretical study of the effect of phase-transformation-induced volume contraction on the fracture properties of superelastic SMAs. A simple model is employed to account for the forward and reverse phase transformation with pure volume change, which is then applied to numerically study the transformation field near the tip of a tensile crack. The results reveal that during steady-state crack propagation, the transformation zone extends ahead of the crack tip due to forward transformation while partial reverse transformation occurs in the wake. Furthermore, as a result of the volume contraction associated with the austenite-to-martensite transformation, the induced stress-intensity factor is positive. This is in stark contrast with the negative stress-intensity factor achieved in zirconia ceramics, which undergoes volume expansion during phase transformation. The reverse transformation has been found to have a negligible effect on the induced stress-intensity factor. An important implication of the present results is that the phase transformation with volume contraction in SMAs tends to reduce their fracture resistance and increase the brittleness.


History

Journal

Smart materials and structures

Volume

11

Issue

6

Pagination

947 - 955

Publisher

Institute of Physics Publishing

Location

Bristol, England

ISSN

0964-1726

eISSN

1361-665X

Language

eng

Publication classification

C1.1 Refereed article in a scholarly journal

Copyright notice

2002, lOP Publishing Ltd

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