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Anisotropy and Microstructure of Rare Earth Permanent Magnet Materials.

机译：稀土永磁材料的各向异性与微观结构。

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The present report is divided into two parts, the microstructural investigations and the anisotropy measurements of rare earth permanent magnet materials. Section I shows that the hardmagnetic properties, i.e. coercivity, of the individual Nd-Fe-B permanent magnet material strongly depends on the compositional and processing parameters (milling, blending, annealing, etc.) and are directly correlated to the microstructural properties (grain size, composition and distribution of phases, crystal defects and precipitates) and to the magnetocrystalline anisotropy of the material. By means of transmission electron microscopy together with STEM X-ray microanalysis at least three categories of phases were identified in sintered rare earth-iron permanent magnets. From microstructural investigations it can be assumed that the coercivity of sintered rare earth-iron permanent magnet materials is controlled by the nucleation and expansion fields for reversed domains. In Section II the magnetic anisotropy measurements of various rare earth-iron based magnets between 80 K and the Curie temperature are shown and the results are discussed by means of a expanded model for the anisotropy field. From the study of the temperature dependence of the anisotropy field of the mixed crystal series (N,RE)15Fe77B8 (RE=Y, La, Ce) the One Ion Character of the Nd sublattice is shown.

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Skalicky, P.; Fidler, J.; Groessinger, R.; Kirchmayr, H.;
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年度 1986
页码 1-121
总页数 121
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Magnetic materials; Permanent magnets; Rare earth alloys; Anisotropy; Microstructure; Low costs; Neodymium; Iron; Boron; Electron microscopy; Coercive force; Nucleation; Crystals; Foreign technology; Magnetic anisotropy;

机译：磁性材料;永磁体;稀土合金;各向异性;微观结构;低成本;钕;铁;硼;电子显微镜;矫顽力;成核;晶体;国外技术;磁各向异性;

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1. First-principles prediction of rare-earth free permanent magnet: FeNi with enhanced magnetic anisotropy and stability through interstitial boron [J] . D. Tuvshin, T. Ochirkhuyag, S. C. Hong, AIP Advances . 2021,第1期

机译：稀土无磁铁的第一原理预测：FENI具有增强的磁各向异性和通过间隙硼的稳定性
2. Prediction of large magnetic anisotropy for non-rare-earth based permanent magnet of Fe_(16-x)Mn_xN_2 alloys [J] . Riyajul Islam, J. P. Borah Journal of Applied Physics . 2020,第11期

机译：Fe_（16-x）Mn_xN_2合金非稀土基永磁体的大磁各向异性预测
3. Anisotropy of exchange stiffness based on atomic-scale magnetic properties in the rare-earth permanent magnet Nd_2Fe_(14)B [J] . Yuta Toga, Masamichi Nishino, Seiji Miyashila, Physical review . 2018,第5期

机译：稀土永磁体Nd_2Fe_（14）B中基于原子尺度磁性的交换刚度各向异性
4. Relevance of Rare Earths recycling from Permanent Magnets: Current and future use of Rare Earth Metals in Permanent Magnets for (Electric) Vehicles and the collection potential for recycling to provide a feedstock for the REE4EU industrial scale Rare Earth recycling processes.-Presented at EVS 31 EVTeC 2018, Kobe, Japan, October 1 - 3, 2018 [C] . Bert Witkamp International Electric Vehicle Symposium Exhibition;International Electric Vehicle Technology Conference . 2018

机译：稀土从永久磁铁中回收的相关性：用于（电动）车辆的永久磁铁中稀土金属的电流和未来使用，以及回收利用的电位，为REE4EU工业规模稀土回收过程提供原料。 - 在EVS 31上呈现＆evtec 2018，Kobe，日本，2018年10月1日至3日
5. STUDIES OF RARE-EARTH - TRANSITION METAL PERMANENT MAGNET MATERIALS (ANISOTROPY, COERCIVITY). [D] . OSWALD, ERIC STEPHEN. 1986

机译：稀土过渡金属永磁材料（各向异性，矫顽力）的研究。
6. First-principles determination of intergranular atomic arrangements and magnetic properties in rare-earth permanent magnets [O] . Yoshihiro Gohda 2021

机译：稀土永磁体中晶间原子布置和磁性的第一原理
7. Role of Rare-Earth Elements in Permanent Magnet Materials. [O] . HIROAKI KATO 2002

机译：稀土元素在永磁材料中的作用。

Anisotropy and Microstructure of Rare Earth Permanent Magnet Materials.

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