High coercivity Sm2Fe17N3 submicron size powder prepared by polymerized-complex and reduction-diffusion process

Hirayama Y.; Panda A. K.; Ohkubo T.; Hono K.

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High coercivity Sm2Fe17N3 submicron size powder prepared by polymerized-complex and reduction-diffusion process

机译：聚合络合还原扩散法制备高矫顽力Sm2Fe17N3亚微米级粉末

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High coercivity Sm2Fe17N3 submicron size powder was synthesized by the polymerized-complex (PC), hydrogen reduction (HR) and reduction-diffusion (RD) processes. A mixture of nano size SmOx, FeOx, and SmFeO3 particles was first synthesized by the polymerized-complex method, which was then reduced to alpha-Fe and SmOx by hydrogen. Subsequent reduction diffusion using Ca metal led to the formation of submicron size Sm2Fe17 powder with a mixture of CaO. After nitriding and rinsing, Sm2Fe17N3 powder with the average diameter of 0.69 +/- 0.17 mu m was obtained, which exhibited the coercivity of 2.32 T, the highest ever reported for ternary Sm2Fe17N3 anisotropic powder. (C) 2016 Elsevier Ltd. All rights reserved.

机译：通过聚合络合物（PC），氢还原（HR）和还原扩散（RD）工艺合成了高矫顽力的Sm2Fe17N3亚微米级粉末。首先通过聚合络合物法合成纳米级SmOx，FeOx和SmFeO3颗粒的混合物，然后将其通过氢还原为α-Fe和SmOx。随后使用Ca金属进行的还原扩散导致形成了亚微米尺寸的Sm2Fe17粉末和CaO混合物。经过氮化和冲洗后，获得平均直径为0.69 +/- 0.17μm的Sm2Fe17N3粉末，其矫顽力为2.32 T，这是三元Sm2Fe17N3各向异性粉末中报道的最高值。（C）2016 Elsevier Ltd.保留所有权利。

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《Scripta materialia》 |2016年第null期|共4页
作者
Hirayama Y.; Panda A. K.; Ohkubo T.; Hono K.;
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正文语种 eng
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Permanent magnet; Hard magnet; Sm2Fe17N3; Polymerized complex; Reduction diffusion;

机译：永磁体;硬磁体;Sm2Fe17N3;聚合络合物;还原扩散;

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1. High coercivity Sm2Fe17N3 submicron size powder prepared by polymerized-complex and reduction-diffusion process [J] . Hirayama Y., Panda A. K., Ohkubo T., Scripta materialia . 2016,第Null期

机译：聚合络合还原扩散法制备高矫顽力Sm2Fe17N3亚微米级粉末
2. Synthesis of Sm2Fe17N3 powder having a new level of high coercivity by preventing decrease of coercivity in washing step of reduction-diffusion process [J] . Okada Shusuke, Node Efi, Takagi Kenta, Journal of Alloys and Compounds: An Interdisciplinary Journal of Materials Science and Solid-state Chemistry and Physics . 2019,第期

机译：通过防止减少扩散过程中的洗涤步骤中的矫顽力降低，合成具有新的高矫顽力水平的高矫顽力
3. Improvement of magnetization of submicron-sized high coercivity Sm2Fe17N3 powder by using hydrothermally synthesized sintering-tolerant cubic hematite [J] . Shusuke Okada, Kazuyuki Suzuki, Eri Node, AIP Advances . 2017,第5期

机译：利用水热合成耐烧结立方赤铁矿改善亚微米级高矫顽力Sm2Fe17N3粉末的磁化强度
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7. Improvement of magnetization of submicron-sized high coercivity Sm2Fe17N3 powder by using hydrothermally synthesized sintering-tolerant cubic hematite [O] . Shusuke Okada, Kazuyuki Suzuki, Eri Node, 2017

机译：用水热合成烧结耐性立方赤铁矿改善亚微米级高矫顽力sm2Fe17N3粉末的磁化强度

High coercivity Sm2Fe17N3 submicron size powder prepared by polymerized-complex and reduction-diffusion process

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