Abstract
Abstract Ni 50 Mn 25 Ga 25− x Cu x ( x = 3–10) alloys were studied as single-phase wide-hysteresis shape memory alloys, with the microstructure, martensitic transformation temperatures and hysteresis, mechanical properties, and shape memory behaviors. Single phase of martensite with tetragonal structure was detected for x x ≤ 10. The martensitic transformation start temperature M s was linearly increased from 477 K for x = 5 to 673 K for x = 8, then remained constant for x > 9. Simultaneously, the transformation hysteresis A s – M s , between the austenitic start and the martensitic start temperatures, was monotonically expanded from 6.6 K for x = 5 to 40 K for x = 8. The ductility of Ni–Mn–Ga alloys was effectively improved by Cu addition via strengthening the grain boundaries. Shape memory effect of 4.4% was obtained in Ni 50 Mn 25 Ga 17 Cu 8 polycrystal. The wide transformation hysteresis, the achieved shape memory effect and the improved ductility indicate Ni–Mn–Ga–Cu alloys a promising candidate for single-phase wide-hysteresis shape memory alloys.
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