Microstructural studies and micromagnetic analysis of nanocrystalline NdFeCoMB (M = Ga, Ge) melt-spun ribbon

R. Gholamipour; A. Beitollahi; V. K. Marghusian; T. Ohkubo; K. Hono

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Microstructural studies and micromagnetic analysis of nanocrystalline NdFeCoMB (M = Ga, Ge) melt-spun ribbon

机译：纳米晶NdFeCoMB（M = Ga，Ge）熔纺薄带的显微组织研究和微磁分析

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The effects of Ge and Ga additions on the microstructure and coercivity of melt-spun ribbons of Nd13.5 Fe(74.9−z) Co5.5 M z B6 (z=0.0 to 0.54; M=Ge, Ga) alloys have been investigated. For the first time, a detailed microstructural study of nanometer-sized Nd-rich grain boundary phase enriched with small amounts of Ga and Ge was carried out using a three-dimensional atom probe (3DAP) technique. Ga partitions to thin uniform Nd-rich grain boundary phase, causing effective isolation of Nd2Fe14B grains. As a result, the coercivity increased. On the other hand, Ge caused the formation of Ge- and Nd-rich precipitates, resulting in the formation of dispersoids along the grain boundaries. Due to the poor isolation of the Nd2Fe14B grains, the coercivity decreased.

机译：Ge和Ga的添加对Nd13.5 Fe（74.9−z） Co5.5 M z B6 熔纺薄带的组织和矫顽力的影响已经研究了（z ＝ 0.0至0.54； M ＝ Ge，Ga）合金。首次使用三维原子探针（3DAP）技术对富含少量Ga和Ge的纳米级富Nd晶界相进行了详细的微观结构研究。 Ga分配到均匀的，富Nd的薄晶界相，导致Nd2 Fe14 B晶粒有效隔离。结果，矫顽力增加。另一方面，Ge引起富含Ge和Nd的沉淀的形成，导致沿晶界形成弥散体。由于Nd2 Fe14 B晶粒的隔离性差，矫顽力降低。 展开▼

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《Metallurgical and Materials Transactions A》 |2006年第5期|1581-1587|共7页

作者
R. Gholamipour; A. Beitollahi; V. K. Marghusian; T. Ohkubo; K. Hono;
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作者单位

Nanomaterial Group Department of Metallurgy and Materials Engineering Iran University of Science and Technology Narmak Tehran Iran;

Nanomaterial Group Department of Metallurgy and Materials Engineering Iran University of Science and Technology Narmak Tehran Iran;

Department of Metallurgy and Materials Engineering Iran University of Science and Technology Narmak Tehran Iran;

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Microstructural studies and micromagnetic analysis of nanocrystalline NdFeCoMB (M = Ga, Ge) melt-spun ribbon

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