Grain boundary diffusion treatment of sintered NdFeB magnets by low cost La-Al-Cu alloys with various Al/Cu ratios

•La-Al-Cu alloys were employed for grain boundary diffusion for the first time.•Coercivity and thermal stability of NdFeB magnet are enhanced by La-Al-Cu diffusion.•Optimized microstructure after grain boundary diffusion is observed and confirmed.•Diffusion behavior and diffusion coefficients of La,...

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Published in	Journal of magnetism and magnetic materials Vol. 490; p. 165498
Main Authors	Zeng, H.X., Wang, Q.X., Zhang, J.S., Liao, X.F., Zhong, X.C., Yu, H.Y., Liu, Z.W.
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 15.11.2019 Elsevier BV
Subjects	Aluminum base alloys Casting Coercivity Coercivity enhancement Copper Diffusion coefficient Diffusion effects Diffusion rate Grain boundaries Grain boundary diffusion La-Al-Cu alloys Lanthanum oxides Low cost Microstructure NdFeB Permanent magnets Rare earth elements Sintering Grain boundary diffusion NdFeB Microstructure Diffusion coefficient La-Al-Cu alloys Coercivity enhancement
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Abstract	•La-Al-Cu alloys were employed for grain boundary diffusion for the first time.•Coercivity and thermal stability of NdFeB magnet are enhanced by La-Al-Cu diffusion.•Optimized microstructure after grain boundary diffusion is observed and confirmed.•Diffusion behavior and diffusion coefficients of La, Al and Cu are investigated. Different from many previous reports, La-Al-Cu alloys with different Al/Cu ratios containing only high abundant rare earth element La were employed for grain boundary diffusion treatment for sintered NdFeB permanent magnets. It is found that Al and Cu contents should be optimized to achieve coercivity enhancement. The coercivity of the magnet was enhanced from 1000 to 1006, 1077 and 1156 kA/m after La70Al10Cu20, La70Al15Cu15 and La70Al20Cu10 alloys diffusion, at 800 °C for 1 h followed by 500 °C for 3 h. The coercivity stability was also improved, indicated by the enhanced temperature coefficient of β from −0.63 to −0.61, −0.61 and −0.60%/K. Microstructure investigation indicates that the formation of continuous grain boundary phase after diffusion reduces the magnetic exchange interaction and contributes to the enhanced coercivity. After diffusion, the La2O3 phase was observed in both the triple junction and strip grain boundary. La, Al and Cu elements showed different distributions in the magnets. The diffusion coefficients obtained from Fick’s second law indicate that La diffuses faster than Al and Cu at 800 °C, which explains the various effects of the diffusion sources and different coercivity enhancements by the alloys with different Al/Cu ratios. Although the process should be further optimized, the current results demonstrate that the grain boundary diffusion using low cost La-Al-Cu alloys can improve the microstructure and enhance the coercivity of NdFeB magnets.
AbstractList	•La-Al-Cu alloys were employed for grain boundary diffusion for the first time.•Coercivity and thermal stability of NdFeB magnet are enhanced by La-Al-Cu diffusion.•Optimized microstructure after grain boundary diffusion is observed and confirmed.•Diffusion behavior and diffusion coefficients of La, Al and Cu are investigated. Different from many previous reports, La-Al-Cu alloys with different Al/Cu ratios containing only high abundant rare earth element La were employed for grain boundary diffusion treatment for sintered NdFeB permanent magnets. It is found that Al and Cu contents should be optimized to achieve coercivity enhancement. The coercivity of the magnet was enhanced from 1000 to 1006, 1077 and 1156 kA/m after La70Al10Cu20, La70Al15Cu15 and La70Al20Cu10 alloys diffusion, at 800 °C for 1 h followed by 500 °C for 3 h. The coercivity stability was also improved, indicated by the enhanced temperature coefficient of β from −0.63 to −0.61, −0.61 and −0.60%/K. Microstructure investigation indicates that the formation of continuous grain boundary phase after diffusion reduces the magnetic exchange interaction and contributes to the enhanced coercivity. After diffusion, the La2O3 phase was observed in both the triple junction and strip grain boundary. La, Al and Cu elements showed different distributions in the magnets. The diffusion coefficients obtained from Fick’s second law indicate that La diffuses faster than Al and Cu at 800 °C, which explains the various effects of the diffusion sources and different coercivity enhancements by the alloys with different Al/Cu ratios. Although the process should be further optimized, the current results demonstrate that the grain boundary diffusion using low cost La-Al-Cu alloys can improve the microstructure and enhance the coercivity of NdFeB magnets. Different from many previous reports, La-Al-Cu alloys with different Al/Cu ratios containing only high abundant rare earth element La were employed for grain boundary diffusion treatment for sintered NdFeB permanent magnets. It is found that Al and Cu contents should be optimized to achieve coercivity enhancement. The coercivity of the magnet was enhanced from 1000 to 1006, 1077 and 1156 kA/m after La70Al10Cu20, La70Al15Cu15 and La70Al20Cu10 alloys diffusion, at 800 °C for 1 h followed by 500 °C for 3 h. The coercivity stability was also improved, indicated by the enhanced temperature coefficient of β from −0.63 to −0.61, −0.61 and −0.60%/K. Microstructure investigation indicates that the formation of continuous grain boundary phase after diffusion reduces the magnetic exchange interaction and contributes to the enhanced coercivity. After diffusion, the La2O3 phase was observed in both the triple junction and strip grain boundary. La, Al and Cu elements showed different distributions in the magnets. The diffusion coefficients obtained from Fick's second law indicate that La diffuses faster than Al and Cu at 800 °C, which explains the various effects of the diffusion sources and different coercivity enhancements by the alloys with different Al/Cu ratios. Although the process should be further optimized, the current results demonstrate that the grain boundary diffusion using low cost La-Al-Cu alloys can improve the microstructure and enhance the coercivity of NdFeB magnets.
ArticleNumber	165498
Author	Yu, H.Y. Liu, Z.W. Zhong, X.C. Zhang, J.S. Liao, X.F. Zeng, H.X. Wang, Q.X.
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Keywords	Grain boundary diffusion NdFeB Microstructure Diffusion coefficient La-Al-Cu alloys Coercivity enhancement
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Snippet	•La-Al-Cu alloys were employed for grain boundary diffusion for the first time.•Coercivity and thermal stability of NdFeB magnet are enhanced by La-Al-Cu... Different from many previous reports, La-Al-Cu alloys with different Al/Cu ratios containing only high abundant rare earth element La were employed for grain...
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SubjectTerms	Aluminum base alloys Casting Coercivity Coercivity enhancement Copper Diffusion coefficient Diffusion effects Diffusion rate Grain boundaries Grain boundary diffusion La-Al-Cu alloys Lanthanum oxides Low cost Microstructure NdFeB Permanent magnets Rare earth elements Sintering
Title	Grain boundary diffusion treatment of sintered NdFeB magnets by low cost La-Al-Cu alloys with various Al/Cu ratios
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