Passivity of polycrystalline NiMnGa alloys for magnetic shape memory applications

Abstract

The corrosion and passivation behaviour of bulk polycrystalline martensite Ni 50Mn 30Ga 20 and austenite Ni 48Mn 30Ga 22 alloys was compared in electrolytes with different pH values. Linear anodic and cyclic potentiodynamic polarisation methods and anodic current transient measurements have been conducted for the alloys and their constituents to analyze free corrosion, anodic dissolution and passive layer formation processes. Electrochemically treated alloy surfaces were characterized with scanning electron microscopy (SEM) and angle-resolved x-ray photoelectron spectroscopy (XPS). The electrochemical response of both alloys is in principal similar and is dominated by the Ni oxidation. In acidic solutions (pH 0.5 and 5) a slightly higher reactivity is detectable for the martensitic alloy which is mainly attributed to enhanced dissolution processes at the multiple twin boundaries. In weakly acidic to strongly alkaline solutions (pH 5–11) both alloys exhibit a low corrosion rate and a stable anodic passivity. While air-formed films comprise NiOOH, Ga 2O 3 and MnO 2, passive films formed in near neutral media (pH 5–8.4) are composed of Ni(OH) 2, NiOOH and Ga 2O 3 in the outer region and of NiO, MnO 2 and MnO in the metal-near region.