Shengzhi Dong (Central lron & Steel Research Institute, China) ; Haibo Feng (Central lron & Steel Research Institute, China) ; Jing Liu (Central lron & Steel Research Institute, China) ; Jiateng Zhang (Central lron & Steel Research Institute, China) ; Wei Li (Central lron & Steel Research Institute, China)
コレクション
引用
説明:
(abstract)The optimization of grain boundary structure in sintered NdFeCoB magnets was studied using the grain boundary diffusion process (GBDP) with Dy70Al20Cu10 alloy flakes as the diffusion source. These flakes were attached to magnets with a nominal composition of Pr7.8Nd23.4Co12FebalAl0.3Cu0.2Zr0.1B1. Magnets with various coating thicknesses were labeled as follows: GBD-0 (0 mm), GBD-1 (0.03 mm), GBD-2 (0.09 mm), and GBD-3 (0.15 mm). Among them, GBD-3 exhibited optimal performance, increasing the coercivity from 7.94 to 17.63 kOe, which represented a significant enhancement of 122%. And the diffused magnet exhibited a more optimized temperature coefficient. Prior to GBDP, Co aggregated at grain boundaries with Nd2Co17 phase. After GBDP, microstructural analysis revealed the formation of Dy-rich shells with high anisotropy fields around the 2-14-1 phase within the magnet. Additionally, Al and Cu were uniformly distributed, which reduced Nd2Co17 content and enhanced coercivity. This study shows GBDP with " Heavy Rare Earth-Low Melting Point" alloys improves NdFeCoB magnets' magnetic properties, offering a theoretical basis for high-performance, temperature-stable sintered NdFeCoB magnets.
権利情報:
キーワード: REPM2025, Grain Boundary Diffusion, NdFeCoB Magnet, Nd2Co17, Coercivity, Low melting-point alloy
刊行年月日:
出版者: National Institute for Materials Science (NIMS)
掲載誌:
会議:
REPM2025
(2025-07-27 - 2025-07-31)
研究助成金:
原稿種別: 論文以外のデータ
MDR DOI: https://doi.org/10.48505/nims.5665
公開URL:
関連資料:
その他の識別子:
連絡先:
更新時刻: 2025-09-11 16:30:41 +0900
MDRでの公開時刻: 2025-09-11 16:20:03 +0900
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REPM2025_P1-11_Dong.pdf
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