为了研究纳米晶Nd-Fe-B磁体的热变形机理,在不同温度下对快淬粉进行热压热变形处理.通过分析不同温度下热变形过程中应力和磁体应变的变化,以及磁性能和SEM测试,研究了温度对热变形磁体性能和微观结构的影响,分析了热变形过程的热变形机理.结果表明,纳米晶磁体存在最佳的热压温度和热变形温度.当热压温度为550℃,热变形温度为850℃,磁体的剩磁和磁能积最大值,分别为1.343 T和344.7kJ/m3.纳米晶Nd-Fe-B磁体的热变形过程塑变应力和温度的关系满足:ln σ∝1/T.
参考文献
| [1] | 周寿增;董清飞.超强永磁体-稀土铁系永磁材料[M].北京:冶金工业出版社,2004:359. |
| [2] | Saito T.;Kuji T.;Fukuoka K.;Syono Y.;Fujita M. .The development of high performance Nd-Fe-Co-Ga-B die upset magnets[J].Journal of Applied Physics,1998(11 Pt.2):6390-6392. |
| [3] | 姜寿亭;李卫.凝聚态磁性物理第一版[M].北京:科学出版社,2003:20. |
| [4] | Brown D.[J].Journal of Magnetism and Magnetic Materials,2002:248432. |
| [5] | Raja M K et al.[J].Journal of Applied Physics,1988,63(08):3528. |
| [6] | Guruswamy S.;Panchanathan V.;Wang YR. .Plastic deformation modeling of die-upset process for magnequench NdFeB magnets[J].Journal of Applied Physics,1998(11 Pt.2):6393-6395. |
| [7] | Brown D N et al.[J].IEEE Transactions on Magnetics,2004,40(04):2895. |
| [8] | Yoshida Y et al.[J].Journal of Applied Physics,1991,69(08):5841. |
| [9] | D. Lee;J. S. Hilton;C. H. Chen;M. Q. Huang;Y. Zhang;G. C. Hadjipanayis;S. Liu .Bulk Isotropic and Anisotropic Nanocomposite Rare-Earth Magnets[J].IEEE Transactions on Magnetics,2004(4):2904-2906. |
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