Crystallographic alignment and magnetic anisotropy in melt-spun Nd-Fe-B/α-Fe composite ribbons with different neodymium contents 被引量：3

Crystallographic alignment and magnetic anisotropy in melt-spun Nd-Fe-B/α-Fe composite ribbons with different neodymium contents

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摘要 Crystallographic alignment and magnetic anisotropy were studied for NdxFe94–xB6 （x=8,9,10,11） ribbons prepared via melt-spinning. Effect of Nd content and wheel speed on the crystal structure and magnetic properties of the ribbons was investigated. Both the free and wheel side of the ribbons could obtain strong c-axis crystal texture of Nd2Fe14B phase perpendicular to the ribbons surface at low wheel speed,but the texture weakened gradually with the increase of the wheel speed. Increase of Nd content led to better formation of crystal texture in the ribbons,indicating that the α-Fe phase might undermine the formation of crystal texture. Magnetic measurement results showed that the magnetic anisotropy of the ribbons exhibited corresponding behavior with the invariance of the c-axis crystal texture of Nd2Fe14B phase in the ribbons,and the coercivity of the ribbons rose with the increase of both Nd content and wheel speed during melt-spun process. Crystallographic alignment and magnetic anisotropy were studied for NdxFe94–xB6 （x=8,9,10,11） ribbons prepared via melt-spinning. Effect of Nd content and wheel speed on the crystal structure and magnetic properties of the ribbons was investigated. Both the free and wheel side of the ribbons could obtain strong c-axis crystal texture of Nd2Fe14B phase perpendicular to the ribbons surface at low wheel speed,but the texture weakened gradually with the increase of the wheel speed. Increase of Nd content led to better formation of crystal texture in the ribbons,indicating that the α-Fe phase might undermine the formation of crystal texture. Magnetic measurement results showed that the magnetic anisotropy of the ribbons exhibited corresponding behavior with the invariance of the c-axis crystal texture of Nd2Fe14B phase in the ribbons,and the coercivity of the ribbons rose with the increase of both Nd content and wheel speed during melt-spun process.

作者王磊陈静武岳明刘荣明刘卫强张东涛张久兴张朋越葛洪良

机构地区 College of Materials Science and Engineering Anhui Earth-panda Advance Magnetic Material Co. Magnetism Key Laboratory of Zhejiang Province

出处《Journal of Rare Earths》 SCIE EI CAS CSCD 2011年第5期471-473,共3页 稀土学报（英文版）

基金 Project supported by the National Natural Science Foundation of China (50871003, 20971116) the Key Project of the International Coopera-tion and Exchanges of Zhejiang Province (2006C14014)

关键词 crystallographic alignment magnetic anisotropy Nd content quenching rate COERCIVITY rare earths crystallographic alignment magnetic anisotropy Nd content quenching rate coercivity rare earths

分类号 TB331 [一般工业技术—材料科学与工程]

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Journal of Rare Earths

2011年第5期

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