采用熔体快淬法制备了LaFe11.5Si1.5化合物.利用X射线衍射和能谱分析测定了熔体快淬带的相组成和元素分布;利用磁性能测试结果计算了磁熵变.结果表明:熔体快淬可以得到元素分布均匀的LaFe11.5Si1.5薄带,其相组成为NaZn13型LaFei1.5Si1.5化合物和大量α-Fe.退火后,快淬带中的α-Fe含量大大降低,得到了近似单相的LaFe11.5Si1.5化合物.由磁性能测试并经计算发现,快淬带经1000℃,6 h时效后具有巨大的磁熵变.由此可见,熔体快淬可成为一种制备更廉价的高性能磁致制冷材料的新方法.
参考文献
| [1] | Palstra T T M;Nieuwenhuys F J;Mydosh J A et al.[J].Physical Review,1985,B31:4622. |
| [2] | Rao G H;Liang J K;Zhang Y L et al.[J].Journal of Applied Physiology,1996,80(01):336. |
| [3] | Hu F X;Shen B G;Sun J R et al.[J].Applied Physics Letters,2001,78:3675. |
| [4] | Fujieda S;Fujita A;Fukamichi K .[J].Applied Physics Letters,2002,81:1276. |
| [5] | Fujieda S;Fujita A;Fukamichi K .[J].Science and Technology of Advanced Materials,2003,4:339. |
| [6] | Hu F X;Shen B G;Sun J R et al.[J].Applied Physics Letters,2002,80:826. |
| [7] | Fujieda S;Fujita A;Fukamichi K et al.[J].Applied Physics Letters,2001,79:653. |
| [8] | Tang Z.X.;Deng X.H. .Structural and magnetic properties of LaFe/sub 13-x/Si/sub x/ nitrides[J].IEEE Transactions on Magnetics,1993(6):2839-2841. |
| [9] | Tishin A M;Buschow K H J.Handbook of Magnetic Materials[M].Amsterdam:Elsevier,1999 |
| [10] | Pecharsky V K;Karl A;Gschneidner Jr K A .[J].Journal of Magnetism and Magnetic Materials,1999,200:44. |
| [11] | Wada H;Tanabe Y .[J].Applied Physics Letters,2001,79:3302. |
| [12] | Pecharsky VK;Gschneidner KA .Giant magnetocaloric effect in Gd-5(Si2Ge2)[J].Physical review letters,1997(23):4494-4497. |
| [13] | Tegus O;Bruck E;Buschow K H J et al.[J].Nature,2002,415:150. |
| [14] | 吴卫,赵平,姜自莲,李远辉,朱向东,周廷栋.原材料Gd对Gd-Si-Ge合金巨磁热效应影响的研究[J].稀有金属材料与工程,2003(11):962-964. |
| [15] | Tegus O;Bruck E;Zhang L et al.[J].Physical Review B,2002,319:192. |
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