摘要
用粉末冶金工艺制备了Sm(CobalFexCu0.88Zr0.025)7.5(x=0-0.30)烧结磁体,对Fe含量x对磁体的磁性及其高温特性的影响进行了系统研究.随Fe含量的增加,最大磁能积(BH)max和剩磁Br逐渐增加,分别在x为0.21和0.27时达到了最大值205kJ/m3和1.055T,然后迅速下降.当x≥0.24时,磁体中开始有FeCo软磁性相析出,破坏了磁体的永磁特性.Fe含量对磁体高温稳定性有巨大的影响,在Fe含量x=0.21时,磁体内禀矫顽力温度系数β为-0.23%/K;当x=0.07时,β降至-0.14%/K(293-723K).制备出有很好的高温稳定性的永磁材料Sm(CobalFe0.07Cu0.088Zr0.025)7.5,在723K时其磁性能为:Br=0.725T,bHc=517kA/m,iHc=764kA/m,(BH)max=95 kJ/m3,B-H退磁曲线保持为直线.
The effect of Fe content on room- and high-temperature magnetic properties of Sm(CobalFexCu0.088Zr0.025)7.5 (x=0-0.30) sintered magnets, prepared by the conventional powder metallurgy method, has been systematically studied. With increasing Fe content, the remanences BT and maximum energy products (BH)max at room temperature gradually increase and reach optimal values of 1.055 T with x=0.27 for BT, and 205 kJ/m3 with x=0.21 for (BH)max, respectively, and then drop sharply with further Fe increase. An excessive addition of Fe (x≥0.24) results in rapid deterioration of permanent magnetic properties due to the formation of a considerable amount of FeCo soft magnetic phase. It was found that the effect of Fe content on high temperature stability is huge. The lower the Fe content, the smaller the temperature coefficient of coercivity. When x=0.07, a temperature coefficient of coercivity of -0.14%/K (293-723 K) can be achieved, as compared with -0.23%/K for x=0.21. BT of 0.725 T, bHc of 517 kA/m, iHc of 764 kA/m, and (BH)max of 95 kJ/m3 at 723 K were obtained, and the B-H demagnetization curve remains a straight line.
出处
《金属学报》
SCIE
EI
CAS
CSCD
北大核心
2002年第8期866-870,共5页
Acta Metallurgica Sinica
基金
国家自然科学基金 50071051
��国家高技术研究发展计划(863计划)2001AA320401资助项目
