Martensitic and magnetic transformation of Co_(41)Ni_(32)Al_(24)Sb_3 and Co_(41)Ni_(32)Al_(27) alloys 被引量：2

Martensitic and magnetic transformation of Co_(41)Ni_(32)Al_(24)Sb_3 and Co_(41)Ni_(32)Al_(27) alloys

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摘要 The martensitic transformation and magnetic property of Co41Ni32Al27 and Co41Ni32Al24Sb3 alloys were investigated by optical microscopy(OM), scanning electric microscopy(SEM), energy dispersive X-ray spectroscopy(EDS), X-ray diffractometry (XRD), differential scanning calorimeter analysis(DSC) and vibration sample magnetometer(VSM) methods. The results show that martensitic crystal structure of Co41Ni32Al24Sb3 alloy is still L10 type. Both martensitic transformation temperature Tm and Curie point Tc are in linear relation to quenching temperature. Tm increases by 9 K and Tc increases by 7.5 K for every 10 K increasing in quenched temperature. Quenched from same temperature, Tm of Co41Ni32Al24Sb3 alloy is higher than that of Co41Ni32Al27 alloy by 76 K, meanwhile Tc is higher by 18 K. The melting point of Co-Ni-Al alloy is decreased by the Sb addition, eutectic structure appears in Co41Ni32Al24Sb3 alloy annealed at 1 573 K, which indicates that the alloy is partially melted, whereas Co41Ni32Al27 alloy can be annealed at 1 623 K without melted. The martensitic transformation temperature range of Co41Ni32Al24Sb3 alloy is 22?29 K, only half that of Co41Ni32Al27 alloy. This is a very important result to benefit the achievement of large magnetic field induced strain on Co-Ni-Al based alloy. The results of Tm and Tc were explained by total average s+d electron concentration and magnetic valence number Zm respectively. The martensitic transformation and magnetic property of Co41Ni32Al27 and Co41Ni32Al24Sb3 alloys were investigated by optical microscopy（OM）, scanning electric microscopy（SEM）, energy dispersive X-ray spectroscopy（EDS）, X-ray diffractometry （XRD）, differential scanning calorimeter analysis（DSC） and vibration sample magnetometer（VSM） methods. The results show that martensitic crystal structure of Co41Ni32Al24Sb3 alloy is still Llo type. Both martensitic transformation temperature Tm and Curie point Tc are in linear relation to quenching temperature. Tm increases by 9 K and Tc increases by 7.5 K for every 10 K increasing in quenched temperature. Quenched from same temperature, Tm of Co41Ni32Al24Sb3 alloy is higher than that of Co41Ni32Al27 alloy by 76 K, meanwhile Tc is higher by 18 K. The melting point of Co-Ni-Al alloy is decreased by the Sb addition, eutectic structure appears in Co41Ni32Al24Sb3 alloy annealed at l 573 K, which indicates that the alloy is partially melted, whereas Co41Ni32Al27 alloy can be annealed at 1 623 K without melted. The martensitic transformation temperature range of Co41Ni32Al24Sb3 alloy is 22-29 K, only half that of Co41Ni32Al27 alloy. This is a very important result to benefit the achievement of large magnetic field induced strain on Co-Ni-Al based alloy. The results of Tm and Tc were explained by total average s＋d electron concentration and magnetic valence number Zm respectively.

作者徐国富尹志民罗丰华牟申周 K.OIKAWA

机构地区 School of Materials Science and Engineering State Key Laboratory of Powder Metallurgy Department of Materials Science

出处《中国有色金属学会会刊：英文版》 EI CSCD 2006年第4期776-782,共7页 Transactions of Nonferrous Metals Society of China

关键词形状记忆合金 Co-Ni-Al-Sb 马氏体转变居里点 ferromagnetic shape memory alloy Co-Ni-Al-Sb alloy martensitic transformation Curie point

分类号 TG111.5 [金属学及工艺—物理冶金]

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共引文献17

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同被引文献10

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引证文献2

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中国有色金属学会会刊：英文版

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