Structure and magnetism of new rare-earth-free intermetallic compounds: Fe3+xCo3?xTi2 (0 ≤ x ≤ 3)

Balamurugan Balasubramanian; Bhaskar Das; Manh Cuong Nguyen; Xiaoshan Xu; Jie Zhang; Xiaozhe Zhang; Yaohua Liu; Ashfia Huq; Shah R. Valloppilly; Yunlong Jin; Cai-Zhuang Wang; Kai-Ming Ho; David J. Sellmyer

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Structure and magnetism of new rare-earth-free intermetallic compounds: Fe3+xCo3?xTi2 (0 ≤ x ≤ 3)

机译：新型无稀土金属间化合物Fe3 + xCo3？xTi2（0≤x≤3）的结构和磁性

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We report the fabrication of a set of new rare-earth-free magnetic compounds, which form the Fe₃Co₃Ti₂-type hexagonal structure with P-6m2 symmetry. Neutron powder diffraction shows a significant Fe/Co anti-site mixing in the Fe₃Co₃Ti₂ structure, which has a strong effect on the magnetocrystalline anisotropy as revealed by first-principle calculations. Increasing substitution of Fe atoms for Co in the Fe₃Co₃Ti₂ lattice leads to the formation of Fe₄Co₂Ti₂, Fe₅CoTi, and Fe₆Ti₂ with significantly improved permanent-magnet properties. A high magnetic anisotropy (13.0 Mergs/cm3) and saturation magnetic polarization (11.4 kG) are achieved at 10 K by altering the atomic arrangements and decreasing Fe/Co occupancy disorder.

机译：我们报告了一组新的无稀土磁性化合物的制备，这些化合物形成了Fe _{3 Co _{3 Ti _{2 型六角形具有P-6m2对称性的结构。中子粉末衍射显示出Fe _{3 Co _{3 Ti _{2 结构中明显的Fe / Co反位混合，对如第一性原理计算所揭示的磁晶各向异性。 Fe _{3 Co _{3 Ti _{2 晶格中Fe原子取代Co的增加导致Fe _{4 Co _{2 Ti _{2 ，Fe _{5 CoTi和Fe _{6 Ti _{2 具有明显改善的永磁性能。通过改变原子排列并减少Fe / Co的占有率，在10 K时可获得高的磁各向异性（13.0 Mergs / cm 3 ）和饱和磁极化（11.4 kG）。}}}}}}}}}}}}}}}

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《APL Materials》 |2016年第11期|共页
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Balamurugan Balasubramanian; Bhaskar Das; Manh Cuong Nguyen; Xiaoshan Xu; Jie Zhang; Xiaozhe Zhang; Yaohua Liu; Ashfia Huq; Shah R. Valloppilly; Yunlong Jin; Cai-Zhuang Wang; Kai-Ming Ho; David J. Sellmyer;
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Structure and magnetism of new rare-earth-free intermetallic compounds: Fe3+xCo3?xTi2 (0 ≤ x ≤ 3)

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