具有高矫顽力的高铈含量 Fe-Ce-Nd-B 烧结磁体

D. Goll, Marius Boettle, Joerg Buschbeck, R. Loeffler, Gerhard Schneider
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引用次数: 0

摘要

由于资源效率、可持续性和成本等原因,在 FeNdB 烧结磁体中用 Ce 替代 Nd 非常有趣。然而,高铈含量磁体的磁性能较差。这主要是由于与 Fe14Nd2B 相比,Fe14Ce2B 的固有磁性能值较低,以及拉维斯相 Fe2Ce 在晶界中形成,并在较高 Ce 含量时形成扁平聚集体。本文生产并分析了成分为 Fe70.9-[(Ce1-xLax)0.75Nd0.25]18.8-B5.8-M4.5 (M = Co、Ti、Al、Ga、Cu,0 ≤ × ≤ 0.3)、替代度为 75% 的烧结磁体。结果表明,加入 La 后会形成新的富稀土晶界相,Laves 相分数最多可减少 85%。随着 La 含量的增加,剩磁和居里温度上升,Hc 的温度系数提高。矫顽力、剩磁和最大能量密度分别达到μ0Hc = 0.74 T、Jr = 0.98 T和(BH)max = 139.9 kJ/m3。本文受版权保护。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
High Cerium content Fe‐Ce‐Nd‐B sintered magnets with high coercivity
Ce substitution of Nd in FeNdB sintered magnets is very interesting for reasons of resource efficiency, sustainability and costs. However, the magnetic properties of high Ce‐content magnets are poor. This is mainly due to the lower values of intrinsic magnetic properties of Fe14Ce2B compared to Fe14Nd2B as well as the Laves phase Fe2Ce, which is formed in the grain boundaries and forms flat aggregates for higher Ce‐content. In this paper, sintered magnets with 75 at% degree of substitution of the composition Fe70.9‐[(Ce1‐xLax)0.75Nd0.25]18.8‐B5.8‐M4.5 (M = Co, Ti, Al, Ga, Cu, 0 ≤ × ≤ 0.3) are produced and analyzed. It is shown that a new rare earth rich grain boundary phase is formed adding La and that the Laves phase fraction can be reduced by up to 85%. With increasing La content, the remanence and Curie temperature increase and the temperature coefficient of Hc improves. A coercivity, remanence and maximum energy density of up to µ0Hc = 0.74 T, Jr = 0.98 T and (BH)max = 139.9 kJ/m3 have been achieved.This article is protected by copyright. All rights reserved.
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