磁性材料及器件
磁性材料及器件
자성재료급기건
JOURNAL OF MAGNETIC MATERIALS AND DEVICES
2015年
4期
23-25,57
,共4页
张蛟%李军%刘颖%沈鑫%向前
張蛟%李軍%劉穎%瀋鑫%嚮前
장교%리군%류영%침흠%향전
(Nd, Ce)-Fe-B磁体%双主相合金法%Ce取代%磁性能
(Nd, Ce)-Fe-B磁體%雙主相閤金法%Ce取代%磁性能
(Nd, Ce)-Fe-B자체%쌍주상합금법%Ce취대%자성능
(Nd,Ce)-Fe-B sintered magnet%double main phase alloy method%Ce substitution%magnetic properties
利用双主相合金法制备了Ce取代的廉价(Nd, Ce)-Fe-B磁体,研究了Ce取代对永磁体烧结致密化行为、显微结构与磁性能的影响。结果表明,用Ce部分取代Nd能够促进烧结,降低烧结温度;随着Ce取代量的增加,晶粒开始明显长大,磁体晶粒尺寸变得不均匀,晶间富稀土相也开始团聚,磁体各项磁性能逐步降低,在 Ce 取代量为总稀土的20%时,材料剩磁为1.05T,内禀矫顽力为651.4kA/m(8.18kOe),最大磁能积为198.4kJ/m3(24.92MGOe),仍具有较好的综合磁性能。
利用雙主相閤金法製備瞭Ce取代的廉價(Nd, Ce)-Fe-B磁體,研究瞭Ce取代對永磁體燒結緻密化行為、顯微結構與磁性能的影響。結果錶明,用Ce部分取代Nd能夠促進燒結,降低燒結溫度;隨著Ce取代量的增加,晶粒開始明顯長大,磁體晶粒呎吋變得不均勻,晶間富稀土相也開始糰聚,磁體各項磁性能逐步降低,在 Ce 取代量為總稀土的20%時,材料剩磁為1.05T,內稟矯頑力為651.4kA/m(8.18kOe),最大磁能積為198.4kJ/m3(24.92MGOe),仍具有較好的綜閤磁性能。
이용쌍주상합금법제비료Ce취대적렴개(Nd, Ce)-Fe-B자체,연구료Ce취대대영자체소결치밀화행위、현미결구여자성능적영향。결과표명,용Ce부분취대Nd능구촉진소결,강저소결온도;수착Ce취대량적증가,정립개시명현장대,자체정립척촌변득불균균,정간부희토상야개시단취,자체각항자성능축보강저,재 Ce 취대량위총희토적20%시,재료잉자위1.05T,내품교완력위651.4kA/m(8.18kOe),최대자능적위198.4kJ/m3(24.92MGOe),잉구유교호적종합자성능。
Low cost (Nd, Ce)-Fe-B magnets with diffident Ce substitution was prepared by double main phase alloy method, and the effect of Ce substitution on their densification, microstructure and magnetic properties has been investigated. The result shows that Ce substitution for Nd can promote the sintering process, achieve densification at lower sintering temperature. With the increase of Ce substitution amount, the grain of the (Nd, Ce)-Fe-B magnets grows up, the grain size becomes uneven, and the intergranular phase begins to reunite. And with the increase of Ce substitution amount, the magnetic performance decrease at varying degrees. For the 20% Ce content of the total amount of rare earth metals, (Nd, Ce)-Fe-B magnet was prepared with rather better comprehensive magnetic property of Br=1.05T, Hcj=651.4kA/m and (BH)max=198.4kJ/m3.