Unravelling the limit of the coercivity enhancement in PrAl grain boundary diffusion processed Nd‒La‒Ce‒Fe‒B magnets

矫顽力 磁铁 晶界 材料科学 晶界扩散系数 扩散 极限(数学) 凝聚态物理 冶金 热力学 微观结构 物理 数学 量子力学 数学分析
作者
Wang Chen,Hansheng Chen,Jiaying Jin,Liang Zhou,Mengfan Bu,Haoruo Zhou,Mi Yan,Simon P. Ringer
出处
期刊:Journal of Materials Science & Technology [Elsevier BV]
卷期号:251: 213-226 被引量:4
标识
DOI:10.1016/j.jmst.2025.05.039
摘要

The grain boundary diffusion (GBD) process is widely used to enhance the coercivity of Nd‒Fe‒B sintered magnets, representing a critical materials technology for advancing the electrification revolution. However, it is well known that the enhancement in coercivity achievable through the GBD process appears to reach a limit. To overcome this limitation, it is essential to thoroughly understand the formation of the magnetically hardening matrix shells and the evolution of the grain boundary (GB) phases along the diffusion path. Here we present the microstructural and magnetic evolution of the Pr-Al-rich matrix shells and the GB phases along the diffusion path in the Pr 80 Al 20 GBD processed Nd‒La‒Ce‒Fe‒B magnets. Firstly, the Pr/total rare earth (TRE) ratio remains relatively constant in the Pr-Al-rich matrix shells from the magnet surface to an interior diffusion depth of ∼500 µm. The consistent Pr/TRE ratio identified within the matrix shells means that there is not a sustained increase in the nucleation field near the RE 2 Fe 14 B matrix grain/GB interface. Secondly, from the magnet surface to an interior diffusion depth of ∼500 µm, the antiferromagnetic high-Al δ-type RE‒Fe‒Al phase at the GBs transforms to a ferromagnetic low-Al μ-type or amorphous RE‒Fe‒Al phase. The predominance of the ferromagnetic low-Al μ-type or amorphous RE‒Fe‒Al phase beyond this diffusion depth implies that, apart from this sub-surface region, there is a lack of magnetic isolation of the adjacent ferromagnetic RE 2 Fe 14 B matrix grains through most of the bulk magnet. These factors jointly contribute to constraining or limiting the coercivity enhancement. We discuss how the microstructural origins of the limits to the coercivity enhancement in the GBD processed magnets found here can enable future design approaches for producing thicker Nd‒La‒Ce‒Fe‒B magnets with higher coercivity.
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