摘要
介绍了La Fe M(M=Al,Si)化合物在磁热性能研究方面的最新进展。具有NaZn13型晶体结构,含高浓度Fe的La Fe M(M=Al,Si)化合物为良好的软磁材料;用少量的Co替代化合物中Si,Al元素可以将化合物的居里温度提高至室温;对La(Fe1-yCoy)xSi13-x化合物,适量的Si,Co组合可使化合物在室温产生可与Gd5Si2Ge2比拟的磁热效应;加入适量的间隙原子H,也可使La(FexSi1-x)13在室温的磁热性能远远大于金属Gd;对含Si量低及含Si量高的La(FexSi1-x)13化合物在相转变点附近由温度和磁场诱导相变的本质做了详细阐述。
The recent progress in research on magnetocaloric effect for La-Fe-M(M=Al, Si) compounds was presented. La-Fe-M(M=Al,Si) compounds with NaZn_(13) structure and high content of Fe are excellent soft magnetic materials. The Curie temperature of compounds can be increased by substituting small amount of Co for Si, Al. The La(Fe_(1-y)Co_y)_xSi_(13-x) compounds with an appropriate combination of Co and Si can produce the giant magnetocaloric effect comparable with that for Gd_5Si_2Ge_2 at room temperature. The La(Fe_xSi_(1-x))_(13) with interstitial hydrogen atoms can also produce the giant magnetocaloric effect at room temperature, which is much greater than that for Gd. For La(Fe_xSi_(1-x))_(13) compounds with low Si content and high Si content, the nature of phase transition near Curie temperature induced by temperature and magnetic field was described in detail.
出处
《中国稀土学报》
CAS
CSCD
北大核心
2003年第6期621-625,共5页
Journal of the Chinese Society of Rare Earths
基金
国家十五"863"计划课题(2002AA324010)
关键词
磁致冷材料
磁热性能
等温磁熵变
绝热温变
La-Fe-M化合物
稀土
软磁材料
磁热效应
metal material
magnetic refrigerating material
magnetocaloric effect
isothermal magnetic entropy change
adiabatic temperature change
La-Fe-M(M=Al, Si)
rare earths
