深入了解掺铁对 Ni-Mn-Ti-Fe 全金属 Heusler 合金的相稳定性、马氏体转变和磁性能的影响

IF 3.7 3区 材料科学 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Jiaxin Xu, Jing Bai, Yu Zhang, Keliang Guo, Qingshuang Ma, Xinjun Jiang, Jianglong Gu, Qiuzhi Gao, Liang Zuo
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引用次数: 0

摘要

在这项工作中,通过第一性原理计算系统地研究了掺杂铁对镍锰钛铁(=3.125、6.25、9.375)全金属 Heusler 合金的相稳定性、马氏体转变和磁性能的影响。结果表明,掺杂的铁原子有在镍锰钛铁合金中聚集的趋势。随着铁浓度的增加,奥氏体和马氏体的晶格常数和相稳定性逐渐降低。在不掺杂或掺杂极少量铁的情况下,奥氏体和马氏体都表现出反铁磁性。然而,在 = 9.375 时,奥氏体相过渡到铁磁态。这种转变归因于镍锰钛合金中铁的掺杂激活了奥氏体相的铁磁耦合效应。相比之下,马氏体相在整个掺杂范围内都保持了其反铁磁特性。对电子结构的全面分析阐明了导致马氏体转变和磁性能变化的基本物理机制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Insights into effects of Fe doping on phase stability, martensitic transformation, and magnetic properties in Ni-Mn-Ti-Fe all-d-metal Heusler alloys
In this work, the effects of Fe doping on phase stability, martensitic transformation, and magnetic properties of NiMnTiFe ( = 3.125, 6.25, 9.375) all--metal Heusler alloys were systematically investigated by first-principles calculations. The results indicate a tendency for doped Fe atoms to aggregate within the NiMnTiFe alloys. As Fe concentration increases, a gradual reduction in both lattice constants and phase stability of austenite and martensite is observed. In the absence or presence of minimal Fe doping, both austenite and martensite exhibit antiferromagnetic behavior. However, at = 9.375, a transition to a ferromagnetic state is observed in the austenite phase. This transition is attributed to the activation of the ferromagnetic coupling effect in the austenite phase induced by Fe doping in the Ni-Mn-Ti alloy. In contrast, the martensite phase maintains its antiferromagnetic characteristics throughout the doping range. A comprehensive analysis of the electronic structure elucidates the underlying physical mechanisms responsible for the martensitic transformation and magnetic property changes.
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来源期刊
Materials Today Communications
Materials Today Communications Materials Science-General Materials Science
CiteScore
5.20
自引率
5.30%
发文量
1783
审稿时长
51 days
期刊介绍: Materials Today Communications is a primary research journal covering all areas of materials science. The journal offers the materials community an innovative, efficient and flexible route for the publication of original research which has not found the right home on first submission.
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