用双合金工艺在(Nd0.75Dy0.10Tb0.15)12.69Fe79.01Co2.00Nb0.30B6.00近正分主合金粉中掭加质量分数为3%的富稀土辅合金(Nd0.75Dy0.10Tb0.15)25.00Fe21.50Co<21.50>Nb4.00Ga8.00Ti5.00Al8.00B7.00粉和3%的Dy2O3粉,成功制备出超高矫顽力和高热稳定性的烧结Nd-Fe-B磁体,内禀矫顽力Hci和最大磁能积(BH)max分别为3028 kA/m和254 kJ/m3,22-220℃剩磁和矫顽力的温度系数分别为-0.104%/℃和-0.356%/℃,260℃不可逆磁通损失Lhirr的绝对值仅为4%.微观组织分析表明:主相Nd2Fe14B晶粒边界光滑、平直,富Nd相连续均匀分布于主相晶粒周围;在Nd2Fe14B晶粒表层附近富含Dy,Dy2O3中的Dy通过扩散与富Nd相及Nd2Fe14B晶粒表层中的Nd发生置换,从而在界面附近增强了磁各向异性.在此基础上,进一步提出了制备高矫顽力烧结Nd-Fe-B磁体中Dy的理想分布示意图.
参考文献
| [1] | Kaneko Y,Kuniyoshi F,Ishigaki N.J Alloy Compd,2006; 408-412:1344 |
| [2] | Bao X Q,Li Q H,Zhu X X,Zhu J,Gao X X,Zhang M C,Zhou S Z.J Univ Sci Technol Beijing,2006; 28:850(包小倩,李青华,朱学新,朱洁,高学绪,张茂才,周寿增.北京科技大学学报,2006;28:850) |
| [3] | Bai G,Gao R W,Sun Y,Hart G B,Wang B.J Magn Magn Mater,2007; 308:20 |
| [4] | Zhou S Z,Tang W Z,Wang R.Acta Metall Sin,1990; 26:290(周寿增,唐伟忠,王润.金属学报,1990;26:290) |
| [5] | Pandian S,Chandrasekaran V,Markandeyulu G,Iyer K J L,Rama Rao K V S.J Appl Phys,2002; 92:6082 |
| [6] | Gabay A M,Zhang Y,Hadjipanayis G C.J Magn Magn Mater,2002; 238:226 |
| [7] | Pandian S,Chandrasekaran V,Markandeyulu G,Iyer K J L,Rama Rao K V S.J Alloy Compd,2004; 364:295 |
| [8] | Vial F,Jolly F,Nevalainen E,Sagawa M,Hiraga K,Park K T.J Magn Magn Mater,2002; 242-245:1329 |
| [9] | Zhou S Y,Zhou L,Chen S K,Luo J J.Rare Met Mater Eng,2006; 35:1006(周圣银,周廉,陈绍楷,罗建军.稀有金属材料与工程,2006;35:1006) |
| [10] | Madaah Hosseini H R,Kianvash A,Seyyed Reihani M,Yoozbashi Zadeh H.J Alloy Compd,2000; 298:319 |
| [11] | Cheng W H,Li W,Li C J,Li X M,Dong S Z.Acta Metall Sin,2001; 37:1271(成问好,李卫,李传建,李岫梅,董生智.金属学报,2001;37:1271) |
| [12] | Hu J F,Liu Y L,Yin M L,Wang Y Z,Hu B P,Wang Z X.J Alloy Compd,1999; 288:226 |
| [13] | de Groot C H,Buschow K H J,de Boer F R,de Kort K.J Appl Phys,1998; 83:388 |
| [14] | Chen Z M,Yan A R,Wang X T,Hadjipanayis G C.J Appl Phys,1997; 81:4456 |
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