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金属学报 2015

La0.9Ce0.1Fe11.44Si1.56Hy合金及其粉末粘结块体的磁热效应*

DOI: 10.11900/0412.1961.2014.00473, PP. 762-768

慕利娟,黄焦宏,刘翠兰,程娟,孙乃坤,赵增祺

Keywords: La0.9Ce0.1Fe11.44Si1.56Hy,吸氢,放氢,粉末粘结,磁热效应

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Abstract:

对La0.9Ce0.1Fe11.44Si1.56合金进行饱和吸氢,之后在不同放氢温度(Td=200~250℃)下进行3h放氢处理,得到H含量不同即具有不同Curie温度(TC)的氢化物,对其相结构和磁热效应进行测试分析.结果表明,合金在吸氢前后有相同的相结构,主相为NaZn13型立方结构,同时含有少量a-Fe杂相;随着放氢温度的提高,TC近似线性的降低;由于H原子的引入消弱了一级巡游电子变磁(IEM)转变,等温磁熵变较母合金有所降低,当Td>230℃时,磁熵变随着放氢温度的升高明显降低,磁滞减小,当Td=250℃时,磁熵变曲线宽化,一级相变特性弱化.饱和吸氢后的La0.9Ce0.1Fe11.44Si1.56Hy粉末经固化后得到的粘结样品在0~1.5T的磁场下,绝热温变和等温磁熵变的最大值分别达到2.7K和7.5J/(kgK).

References

[1]	Pecharsky V K, Gschneidner Jr K A. Phys Rev Lett, 1997; 78: 4494
[2]	Hu F X, Shen B G, Sun J R, Cheng Z H, Rao G H, Zhang X X. Appl Phys Lett, 2001; 78: 3675
[3]	Fujieda S, Fujita A, Fukamichi K. Appl Phys Lett, 2002; 81: 1276
[4]	Tegus O, Brück E, Buschow K H J, de Boer F R. Nature, 2002; 415: 150
[5]	Zhang M, Liu D M, Liu C X, Huang Q Z, Wang S B, Zhang H, Yue M. Acta Metall Sin, 2013; 49: 783 (张孟, 刘丹敏, 刘翠秀, 黄清镇, 王少博, 张虎, 岳明. 金属学报, 2013; 49: 783)
[6]	Dung N H, Ou Z Q, Caron L, Zhang L, Cam Thanh D T, de Wijs G A, de Groot R A, Buschow K H J, Brück E. Adv Energy Mater, 2011; 1: 1215
[7]	Krenke T, Duman E, Acet M, Wassermann E F, Moya X, Manosa L, Planes A. Nat Mater, 2005; 4: 450
[8]	Shen J, Li Y X, Sun J R, Shen B G. Chin Phys, 2009; 18B: 2058
[9]	Balli M, Fruchart D, Gignoux D. J Phys: Condens Matter, 2007; 19: 236230
[10]	Cheng J, Liu G D, Huang J H, Liu C L, Jin P Y, Yan H W. J Rare Earths, 2013; 31: 1163
[11]	Li F A, Song L, Bao L H, Hasi C L, Tegus O, Huang J H. Acta Metall Sin, 2008; 44: 371 (李福安, 松林, 包黎红, 哈斯朝鲁, 特古斯, 黄焦宏. 金属学报, 2008; 44: 371)
[12]	Chen Y F, Wang F, Shen B G, Hu F X, Cheng Z H, Wang G J, Sun J R. Chin Phys, 2002; 11: 741
[13]	Fujita A, Fujieda S, Fukamichi K, Yamazaki Y, Iijima Y. Mater Trans, 2002; 43: 1202
[14]	Fujita A, Fukamichi K. J Alloys Compd, 2005; 404: 554
[15]	Barcza A, Katter M, Zellmann V, Russek S, Jacobs S, Zimm C. IEEE Trans Magn, 2011; 47: 3391
[16]	Krautz M, Moore J D, Skokov K P, Liu J, Teixeira C S, Schafer R, Schultz L, Gutfleisch O. J Appl Phys, 2012; 112: 083918
[17]	Zimm C, Jacobs S. J Appl Phys, 2013; 113: 17A908
[18]	Legait U, Guillou F, Kedous-Lebouc A, Hardy V, Almanza M. Int J Refrigeration, 2014; 37: 147
[19]	Balli M, Sari O, Mahmed C, Besson C, Bonhote P, Duc D, Forchelet J. In: Egolf P W, ed., 4th IIF-IIR Int Conf on Magnetic Refrigeration at Room Temperature, Paris: Institute of Refrigeraton and Institut International du Froid of France, 2010: 313
[20]	Tusek J, Kitanovski A, Tomc U, Favero C, Poredos A. Int J Refrigeration, 2014; 37: 117
[21]	Zhang H, Shen B G, Xu Z Y, Zheng X Q, Shen J, Hu F X, Sun J R, Long Y. J Appl Phys, 2012; 111: 07A909
[22]	Chen Y F, Wang F, Shen B G, Wang G J, Sun J R. J Appl Phys, 2003; 93: 1323
[23]	Yamada H. Phys Rev, 1993; 47B: 11211
[24]	Huang J H, Sun N K, Liu C L, Ge Y M, Zhang T, Liu F, Si P Z. Acta Metall Sin (Engl Lett), 2014; 27: 27
[25]	Chen X, Chen Y G, Tang Y B. J Alloys Compd, 2011; 509: 2864
[26]	Pathak A K, Basnyat P, Dubenko I, Stadler S, Ali N. J Appl Phys, 2009; 106: 063917
[27]	Balli M, Fruchart D, Sari O, Gignoux D, Huang J H, Hu J, Egolf P W. J Appl Phys, 2009; 106: 023902

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