Martensitic transformation in Ni-rich Ni55Mn25In20 Heusler alloy: Experiment and first-principles calculations

Yu S. Y.; Hu S. J.; Kang S. S.; Gu A. J.

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Martensitic transformation in Ni-rich Ni55Mn25In20 Heusler alloy: Experiment and first-principles calculations

机译：富镍Ni55Mn25In20 Heusler合金中的马氏体相变：实验和第一性原理计算

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A martensitic transformation has been observed in Ni-rich Ni55Mn25In20 Heusler alloy and been theoretically investigated by first-principles calculations. The samples are prepared by the melt-spun method and the ribbons show an ordered L2(1) structure at room temperature. Magnetization and electrical resistance measurements show that a martensitic transformation occurs at about 156 K, with both phases exhibiting ferromagnetic ordering. A negative magnetoresistance of 17% is observed at a magnetic field of 50 kOe due to the magnetic field induced reverse martensitic transformation. Electronic structure calculations indicate that the 3d states of Ni occupied in In site strongly hybridize with the Ni: 3d states. Such hybridization plays an important role in driving the martensitic transformation. (C) 2015 Elsevier B.V. All rights reserved.

机译：在富NiNi55Mn25In20 Heusler合金中观察到马氏体相变，并通过第一性原理计算进行了理论研究。通过熔融纺丝方法制备样品，并且在室温下，碳带显示出有序的L2（1）结构。磁化和电阻测量结果表明，马氏体转变发生在大约156 K，两个相均表现出铁磁有序性。由于磁场引起的逆马氏体相变，在50 kOe的磁场下观察到17％的负磁阻。电子结构计算表明，In位点中所占据的Ni的3d状态与Ni：3d状态强烈地杂交。这种杂交在驱动马氏体转变中起重要作用。（C）2015 Elsevier B.V.保留所有权利。

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《Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics》 |2015年第null期|共4页
作者
Yu S. Y.; Hu S. J.; Kang S. S.; Gu A. J.;
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正文语种 eng
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Heusler alloys; Martensitic transformation; NiMnIn; Electronic structure;

机译：Heusler合金;马氏体相变;NiMnIn;电子结构;

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1. Martensitic transformation in Ni-rich Ni55Mn25In20 Heusler alloy: Experiment and first-principles calculations [J] . Yu S. Y., Hu S. J., Kang S. S., Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2015,第Null期

机译：富镍Ni55Mn25In20 Heusler合金中的马氏体相变：实验和第一性原理计算
2. Coexistence of half-metallicity and martensitic transition in Co2VGa1-xSbx (x=0, 0.25 and 0.5) Heusler alloys: First-principles calculations combined with structural experiments [J] . Huang Yinsheng, Jing Chao, Li Jianfu, Computational Materials Science . 2019,第期

机译：在CO2VGA1-XSBX中的半金属性和马氏体过渡的共存（x = 0,0.25和0.5）Heusler合金：第一原理计算与结构实验相结合
3. Prediction of possible martensitic transformations in all-d-metal Zinc-based Heusler alloys from first-principles [J] . Han Yilin, Bouhemadou A., Khenata R., Journal of magnetism and magnetic materials . 2019,第FEBa期

机译：从第一性原理预测全d金属锌基Heusler合金中可能的马氏体相变
4. Effect of Heat Treatment Conditions on Multistage R and Martensitic Transformations in Aged Ni-Rich Ti-Ni Alloys [C] . Minoru Nishida, Yasuhiro Morizono, Kousuke Fujishima, International Conference on Solid - Solid Phase Transformations in Inorganic Materials 2005 vol.2; 20050529-0603; Phoenix,AZ(US) . 2005

机译：热处理条件对富Ni-Ni-Ni合金多阶段R和马氏体相变的影响
5. Martensitic Phase Transformation in Ni-Mn-Ga Based Heusler Alloys. [D] . Quader, Abdul. 2017

机译：Ni-Mn-Ga基Heusler合金中的马氏体相变。
6. Modulations in martensitic Heusler alloys originate from nanotwin ordering [O] . M. E. Gruner, R. Niemann, P. Entel, -1

机译：马氏体Heusler合金的调制源自纳米孪晶有序
7. Isothermal Martensitic Transformations in an Aged Ni-Rich Ti–Ni Alloy Containing Coherent Ti₃Ni₄ Particles [O] . Hiroshi Akamine, Yohei Soejima, Tadaaki Nakamura, 2020

机译：含有老年的Ni-Ni合金的等温马氏体转化含有相干Ti _{3 Ni _{4 颗粒}}

Martensitic transformation in Ni-rich Ni55Mn25In20 Heusler alloy: Experiment and first-principles calculations

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