Thermoelastic martensitic transformation has been studied by the analysis of stress-strain curves in binary Au-Cd alloys, containing 46·5, 47·5, 48·5, 49, 49·5, and 50 at. % Cd, respectively. The pseudoelastic characteristics, i.e. superelastic and ferroelastic behaviour upon tension-compression test and that the origin of the shape memory effect bears a close relation to the ferroelastic loop, have been explained on the basis of the lattice softening, that is, the shear elastic constant, C’ = (C11 — C12)/2, decreases toward zero in the vicinity of the transition temperature. In particular the critical condition for obtaining the ferroelastic loop can be experimentally determined by assuming a critical stress, which is termed ‘ ferroelastic limit The ferroelastic limit may depend upon the elastic anisotropy of alloys and lies in the region 6 Kg/mm2 in the Au—Cd alloy. © 1973, Taylor & Francis Group, LLC. All rights reserved.
CITATION STYLE
Nakanishi, N., Mori, T., Miura, S., Murakami, Y., & Kachi, S. (1973). Pseudoelasticity in Au-Cd thermoelastic martensite. Philosophical Magazine, 28(2), 277–277. https://doi.org/10.1080/14786437308217452
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