Nd2Fe14B/α-Fe纳米复合永磁的制备和性能

材料研究学报, 2007, 21(3): 319-323. doi: 10.3321/j.issn:1005-3093.2007.03.019

Nd2Fe14B/α-Fe纳米复合永磁的制备和性能

李保卫 ^1, , 李永利 ^2, , 岳明 ^3, , 张久兴 ^4,

1.北京工业大学材料学院,新型功能材料教育部重点实验室,北京,100022

2.北京工业大学材料学院,新型功能材料教育部重点实验室,北京,100022

3.北京工业大学材料学院,新型功能材料教育部重点实验室,北京,100022

4.北京工业大学材料学院,新型功能材料教育部重点实验室,北京,100022

基金项目: 北京市自然科学基金(2041001) 北京工业大学校科研和教改项目(52009011200401)

关键词：金属材料 , Nd-Fe-B , 纳米复合磁体 , 超声化学 , 包覆 , SPS

Preparation and properties of Nd2Fe14B/α-Fe nanocomposite permanent magnets

用超声化学法制备纳米Fe颗粒包覆的Nd2Fe14B复合粉体,将其在Ar气保护下经放电等离子烧结(SPS),得到Nd2Fe14B/α-Fe纳米晶复合磁体.Fe名义质量分数为5%的烧结磁体具有较高的磁性能:Br=0.86 T,Hci=683.8 kA/m,(BH)max=95.92 kJ/m3.烧结前对复合粉末进行适当的高能球磨,能促进显微组织进一步细化,增强软磁相与硬磁相之间的交换耦合,使相同Fe含量和烧结工艺的磁体Br和(BH)max分别提高到0.94 T和113.6 kJ/m3.

参考文献

[1]	E.F.Kneller,R.Hawig,The exchange-spring magnet:A new material principle for permanent magnets,IEEE Trans.Magn.,27,3588 (1991)
[2]	R.Skomski,J.M.D.Coey,Giant energy product in nanostructured two phase magnets,Phys.Rev.(B),48,15812(1993)
[3]	WU Jianchun,DONG Yinsheng,LIN Pinghua,Current study on the novel rare-earth permanent magnet materials,Metallic Functional Materials,11,17 (2004)(吴建春,董寅生,林萍华,新型稀土永磁材料的研究现状,金属功能材料,11,17(2004))
[4]	NI Jiansen,XU Hui,A study of two-phase nanocrystalline permanent magnet,Journal of Chinese Rare Earth Society,20,215 (2002)(倪建森,徐晖,双相纳米晶永磁体的研究,中国稀土学报,20,215(2002))
[5]	H.Kronmuller,R.Fischer,A.Zerm,et al.,Micromagnetism and microstructure of hard magnetic materials,J.Phys(D):Appl.Phys.,29,2274(1996)
[6]	R.Skomski,Aligned two-phase magnet:permanent magnetism of the future,J.Appl.Phys.,76,7059(1994)
[7]	J.Rauer,M.Seager,A.Zerm,nanocrystalline FeNdB permanent magnets with enhanced remanence,J.Appl.Phys.,80(3),1667(1996)
[8]	H.Fukunaga,H.Inoue,Effect of intergrain exchange interaction on magnetic properties in isotropic NdFeB magnets,J.Appl.Phys.,31,1347(1992)
[9]	R.Fischer,T.Schreful,H.Kronmuller,et al,Phase distribution and computed magnetic properties of high-remanent composite magnets,J.Magn.Mater.,150,329(1995)
[10]	R.Fischer,T.Schrefl,Grain sized dependence of remanence and coercive field of isotropic nanocrystalline composite permanent magnets,J.Magn.Mater.,153,3549(1996)
[11]	X.F.Tang,L.D.Chen,Synthesis and thermoelectric properties of P-type barium-filled skutterudite BayFexCo4-xSb12,J.Mater.Res.,17(11),2953(2002)
[12]	ZHANG Jiuxing,LIU Kegao,ZHOU Meiling,Development and application of spark plasma sintering,Powder Metallurgy Technology,20(3),129(2002)(张久兴,刘科高,周美玲,放电等离子烧结技术的发展与应用,粉末冶金技术,20(3),129(2002))
[13]	M.Tokita,Trends in advanced SPS spark plasma sintering system and technology,J.Soc.Powd.Tech.,30,790(1993)
[14]	H.Ono,N.Waki,Isotropic bulk exchange-spring magnets with 134 kJ/m3 prepared by spark plasma sintering method,IEEE Trans.Magn.,37,2552(2001)
[15]	T.Saito,T.Takeuchi,H.Kageyama,Production of bulk amorphous and nanocomposite Nd4Fe77.5B18.5 materials by spark plasma sintering method,IEEE Trans.Magn.,40,2880(2004)

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材料期刊网

Nd2Fe14B/α-Fe纳米复合永磁的制备和性能

Preparation and properties of Nd2Fe14B/α-Fe nanocomposite permanent magnets

参考文献