Dysprosium Diffusion Behavior and Microstructure Modification in Sintered Nd-Fe-B Magnets via Dual-Alloy Method

Dysprosium Diffusion Behavior and Microstructure Modification in Sintered Nd-Fe-B Magnets via Dual-Alloy Method

Dysprosium diffusion and microstructure alteration behaviors in sintered Nd-Fe-B magnets via dual-alloy method have been investigated. The sintered magnets were prepared by blending Dy-free and Dy-rich powders with varying proportions. Results indicate that Dy element has already diffused from Dy-ri...

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Veröffentlicht in:IEEE transactions on magnetics 2013-07, Vol.49 (7), p.3233-3236
Hauptverfasser: Lin, Chaowei, Guo, Shuai, Fu, Wenbiao, Chen, Renjie, Lee, Don, Yan, Aru
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Coercive force
Coercivity enhancement
Cross-disciplinary physics: materials science
rheology
dual-alloy method
dysprosium diffusion
Exact sciences and technology
Magnetic resonance imaging
Magnetism
Materials science
Metals. Metallurgy
Microstructure
microstructure modification
Other topics in materials science
Perpendicular magnetic anisotropy
Physics
Powder metallurgy. Composite materials
Powders
Production techniques
Saturation magnetization
Sintered metals and alloys. Pseudo alloys. Cermets
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Zusammenfassung:Dysprosium diffusion and microstructure alteration behaviors in sintered Nd-Fe-B magnets via dual-alloy method have been investigated. The sintered magnets were prepared by blending Dy-free and Dy-rich powders with varying proportions. Results indicate that Dy element has already diffused from Dy-rich powders into the 2:14:1 phase of Dy-free powders and tended to homogenize in the bulk magnet, attributed to the coalescence of grains and dysprosium element concentration gradient. In addition, Dy and Pr/Nd elements counterdiffusion process redistributes the grain boundaries homogeneously. The fracture surfaces of magnets prepared via dual-alloy method almost appear intergranular fracture. It demonstrates that both of (Nd/Pr, Dy) 2 Fe 14 B phase formation and microstructure alteration have favored to coercivity enhancement and thermal stability improvement of the magnets.
ISSN:0018-9464
1941-0069
DOI:10.1109/TMAG.2013.2243128