A systematic (Gd1-xREx)5Si4 (RE=Dy, Ho) alloys are investigated to estimate their magnetocaloric effect.The Curie points of (Gd1-xREx)Si4 alloys can tunable from 266 K to 336 K when RE=Dy, Ho; x=0~0.35 and 0~0.15, respectively, and decrease nearly linearly with increasing x. These alloys keep orthorhombic structures Ge5Sm4 and exhibit second order transition when they experience in a change magnetic field at about Curie when magnetic field changes 0~2 T. The adiabatic temperatures changes (△Tad) of these alloys at Curie points are larger than 1 K in a field change 0~1.4 T, the curve of △Tad is wide as that of Gd. The relative cooling power is about 0.8~0.9 J/cm3 when field changes 0~2 T, 55% of that of Gd. Comparing with Gd5(Si1-xGex)4, these alloys do not contain expensive element Ge, so that their cost are lower than the former. Because they could work at temperature region 260~340 K due to their Curie points can be tuned, which is an advantage comparing with Gd, these alloys are potential magnetic refrigerants working in a magnetic refrigerator with a low magnetic field at room temperatures.
参考文献
| [1] | V K Pecharsky;K A Gschneidner .[J].Physical Review Letters,1997,78:4494. |
| [2] | K A Gschneidner.[A].Austin,Texas,USA,2003 |
| [3] | 胡凤霞,沈保根.Heusler 合金Ni-Mn-Ga和NaZn13型化合物La(Fe,Co,M)13,M=Si, Al 的巨大磁熵变[J].中国科学院研究生院学报,2002(02):192-197. |
| [4] | S Fujita;K Fukamichi.[A].Switzerland,2005:193. |
| [5] | Y Long;Z Y Zhang;D Wen .[J].Journal of Applied Physics,2005,98:046102. |
| [6] | H Wada;Ch Funaba;T Asano;M Ilyn A M Tishin.[A].Switzerland,2005:37. |
| [7] | O Tegus;E Bruck;K H J Buschow;F R de Boer .[J].Nature,2002,415(10):151. |
| [8] | H. Wada;Y. Tanabe .Giant magnetocaloric effect of MnAs_(1-x)Sb_(x)[J].Applied physics letters,2001(20):3302-3304. |
| [9] | V K Pecharaky;K A Gschneidner .[J].Journal of Applied Physics,2001,90(09):4614. |
| [10] | K A Gschneidner;V K Pecharsky;A O Tsokol .[J].Reports on Progress in Physics,2005,68:1479. |
| [11] | Y L Spichkin;V K Pecharsky;K A Gschnerdner .[J].Journal of Applied Physics,2001,89(03):1739. |
| [12] | Wei WU;Zai FENG;Lijun GUO .[J].Journal of the Chinese Rare Earth Society,2005,121(04):241. |
| [13] | K A Gschneidner;V K Pecharsky .Magnetocaloric Materials[J].Annual Review of Materials Science,2000,30:387. |
| [14] | K A Gschneidner;A O Pecharsky;V K Pecharsky;T A Lograsso D L Schlagel.Rare Earths and Actinides:Science,Technology and Applications Ⅳ[A].Warrendale Pennsylvania,2000:63. |
| [15] | F Shir;C Mavriplis;L H Bennett;E D Torre .[J].Journal of Int Refrigeration,2005,28:616. |
| [16] | V K Pecharsky;K A Gschneidner .[J].Advances in Cryogenic Engineering,1998,43:1729. |
| [17] | E M Levin;K A Gschnerdner .[J].Journal of Magnetism and Magnetic Materials,2001,231:135. |
| [18] | 吴卫,卢定伟.Study on Gd-Si-Ge Alloys Using Domestic Gd[J].稀土学报(英文版),2004(05):654-657. |
| [19] | Felix Casanova;Amilcar Labarta;Xavier Batlle .[J].Applied Physics Letters,2005,86:262504. |
| [20] | V. Basso;G. Bertotti;M. LoBue .Theoretical approach to the magnetocaloric effect with hysteresis[J].Journal of Magnetism and Magnetic Materials,2005(1):654-657. |
| [21] | Virgil Provenzano;Alexander J Shapiro;Robert D Shull .[J].Nature,2004,429:853. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%