In situ high-energy X-ray studies of magnetic-field-induced phase transition in a ferromagnetic shape memory Ni–Co–Mn–In alloy

Abstract The magnetic-field-induced phase transition behavior in a Ni 45 Co 5 Mn 36.6 In 13.4 alloy, with and without an imposed stress, at various temperatures has been studied in situ by high-energy synchrotron X-ray diffraction. The crystallographic structure and microstructural characteristics in response to multiple external parameters (stress, temperature and magnetic fields) are traced, enabling the reversible and irreversible magnetic-field-induced transformations to be understood. The transformation kinetics as a function of temperature and magnetic field is determined by monitoring the changes of the specified diffraction peaks, which may be accurately described by the Clausius–Clapeyron relation. The X-ray absorption topographic measurements give direct evidence that inhomogeneous deformation occurred during magnetic-field-induced transformation in the polycrystalline materials. These investigations provide the fundamental structural information and functional characteristics that is crucial for the potential applications of this sort of new functional material.

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