Martensitic transition and magnetoresistance in a Cu-Al-Mn shape memory alloy. Influence of aging

Abstract

We have studied the effect of ageing within the miscibility gap on the electric, magnetic and thermodynamic properties of a non-stoichiometric Heusler Cu-Al-Mn shape-memory alloy, which undergoes a martensitic transition from a bcc-based (β-phase) towards a close-packed structure (M-phase). Negative magnetoresistance which shows an almost linear dependence on the square of magnetization with different slopes in the M- and β-phases, was observed. This magnetoresistive effect has been associated with the existence of Mn-rich clusters with the Cu2AlMn-structure. The effect of an applied magnetic field on the martensitic transition has also been studied. The entropy change between the β- and M-phases shows negligible dependence on the magnetic field but it decreases significantly with annealing time within the miscibility gap. Such a decrease is due to the increasing amount of Cu2MnAl-rich domains that do not transform martensitically.

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