Abstract

An attempt was made to develop a new Fe–Mn–Si–based shape memory alloy from a Fe–17Mn–6Si–0.3C (mass%) shape memory alloy, which was previously reported to show a superior shape memory effect without any costly training treatment, by lowering its Mn content. The shape memory effect and the phase transformation behavior were investigated for the as-solution treated Fe–(17–2 x)Mn–6Si–0.3C– xNi ( x = 0, 1, 2, 3, 4) polycrystalline alloys. The shape recovery strain exceeded 2% in the alloys with x = 0–2, which is sufficient for an industrially applicable shape memory effect; however, it suddenly decreased in the alloys between x = 2 and 3 although the significant shape recovery strain still exceeded 1%. In the alloys with x = 3 and 4, X-ray diffraction analysis and transmission electron microscope observation revealed the existence of α′ martensite, which forms at the intersection of the ɛ martensite plates and suppresses the crystallographic reversibility of the γ austenite to ɛ martensitic transformation.

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