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Electron Concentration Dependence of Transformation Temperature in Different NiMnGa Alloys with First Order Magnetic Transition
引用本文:Duan Jingfang,Zhang Zeyu,Wang Dong,Long Yi~*,Ye Rongchang,Chang Yongqin (School of Materials Science and Engineering,University of Science and Technology Beijing,Beijing 100083,China). Electron Concentration Dependence of Transformation Temperature in Different NiMnGa Alloys with First Order Magnetic Transition[J]. 中国稀土学报(英文版), 2005, 0(4)
作者姓名:Duan Jingfang  Zhang Zeyu  Wang Dong  Long Yi~*  Ye Rongchang  Chang Yongqin (School of Materials Science and Engineering  University of Science and Technology Beijing  Beijing 100083  China)
作者单位:School of Materials Science and Engineering,University of Science and Technology Beijing,Beijing 100083,China
摘    要:Electron Concentration Dependence of Transformation Temperature in Different NiMnGa Alloys with First Order Magnetic Transition


Electron Concentration Dependence of Transformation Temperature in Different NiMnGa Alloys with First Order Magnetic Transition
Duan Jingfang,Zhang Zeyu,Wang Dong,Long Yi,Ye Rongchang,Chang Yongqin. Electron Concentration Dependence of Transformation Temperature in Different NiMnGa Alloys with First Order Magnetic Transition[J]. Journal of Rare Earths, 2005, 0(4)
Authors:Duan Jingfang  Zhang Zeyu  Wang Dong  Long Yi  Ye Rongchang  Chang Yongqin
Affiliation:Duan Jingfang,Zhang Zeyu,Wang Dong,Long Yi~*,Ye Rongchang,Chang Yongqin
Abstract:Composition and electron concentration dependence of transformation temperature in Ni_(2 x y)Mn_(1-x)Ga_(1-y), Ni_(2 x)Mn_(1-x)Ga alloys with first order magnetic transition were studied. For Ni_(2 x y)Mn_(1-x)Ga_(1-y) alloys, martensitic transformation temperature T_M increases and Curie temperature T_C decreases with the increase of electron concentration e/a, they intercept at e/a=7.68. T_M and T_C decrease when continue to increase electron concentration. While for Ni_(2 x)Mn_(1-x)Ga alloys, they cross at e/a=7.635. Before their crossing, the change tendency with e/a is the same as Ni_(2 x y)Mn_(1-x)Ga_(1-y) alloys; after their crossing, both T_M and T_C increase slowly. The different relations between T_M and T_C and e/a within two NiMnGa alloys show that T_M and T_C depend not only on e/a, but also on composition.
Keywords:NiMnGa alloys  electron concentration (e/a)  martensitic transformation  magnetic transition  rare earths
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