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In this paper, we study the thermomagnetic power generation performances of compound series Mn1.2Fe0.8P1-xSix in a strong magnetic field of permanent magnet. The compounds are synthesized by using the high-energy ball milling and solid state reaction method. The crystalline structures, magnetic properties, and the thermomagnetic power generation performances of the compound series Mn1.2Fe0.8P1-xSix are measured. The results show that Mn1.2Fe0.8P0.37Si0.63 and Mn1.2Fe0.8P0.35Si0.65 are the compounds of a first-order phase transition and the soft ferromagnetic materials, and they are of Fe2 P-type hexagonal structure, Curie temperatures of these compounds are 334 K and 348 K in the industrial waste heat temperature zone. According to this feature that temperature variation of the first-order phase transition material leads to a large change of magnetization at the Curie temperature, we design a demonstration device for thermomagnetic generator, and measure the relationships of induction current generated in ferromagnet phase transition with the coil turn number, mass and surface area of thermomagnetic generator material, and the gradient of surface temperature for compounds Mn1.2Fe0.8P0.37Si0.63 and Mn1.2Fe0.8P0.35Si0.65. The results show that the Mn1.2Fe0.8P1-xSix compound series possess the high performances of thermomagnetic power generation, and they are expected to be candidates of magnetic materials for thermomagnetic power generation.
[1] Tesla N 1890 U. S. Patent 428057
[2] Elliot J F 1959 J. Appl. Phys. 30 1774
[3] Kirol L D, Mills J I 1984 J. Appl. Phys. 56 824
[4] Solomon D 1988 J. Appl. Phys. 63 915
[5] Tegus O, Brck E, Buschow K H J, de Boer F R 2002 Nature 415 150
[6] Cam Thanh D T, Brck E, Trung N T, Klaasse J C P, Buschow K H J, Ou Z Q, Tegus O, Caron L 2008 J. Appl. Phys. 103 07B318
[7] Song L, Wang G F, Ou Z Q, Haschaolu O, Tegus O, Brck E, Buschow K H J 2009 J. Alloy. Compd. 474 388
[8] Bi L G, Tegus O, Yi R L T, Shi H R 2012 Acta Phys. Sin. 61 077103 (in Chinese) [毕力格, 特古斯, 伊日勒图, 石海荣 2012 61 077103]
[9] Huang K, Han R Q 1988 Solid Physics (Beijing: Higher Education Press) p408 (in Chinese) [黄昆, 韩汝琦1988固体物理学(北京: 高等教育出版社)第408页]
[10] Jiang S T, Li W 2003 Condensed Matter Magnetic Physics (Beijing: Science Press) pp54-56 (in Chinese) [姜寿亭, 李卫2003凝聚态磁性物理(北京: 科学出版社)第54–56页]
[11] Tegus O, Bao L H, Song L 2013 Chin. Phys. B 22 037506
[12] Geng Y X, Tegus O, Bi L G 2012 Chin. Phys. B 21 037504
[13] Liu Z S, Tegus O 2014 J. Phys. Experiment. 34 37 (in Chinese) [刘忠深, 特古斯 2014 物理实验 34 37]
[14] Huang S Q, Nie Y R, Shen X J 1994 Thermology (2nd Ed.) (Beijing: Higher Education Press) pp269-270 (in Chinese) [黄淑清, 聂宜如, 申先甲 1994 热学教程 (第二版) (北京: 高等教育出版社) 第269–270页]
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[1] Tesla N 1890 U. S. Patent 428057
[2] Elliot J F 1959 J. Appl. Phys. 30 1774
[3] Kirol L D, Mills J I 1984 J. Appl. Phys. 56 824
[4] Solomon D 1988 J. Appl. Phys. 63 915
[5] Tegus O, Brck E, Buschow K H J, de Boer F R 2002 Nature 415 150
[6] Cam Thanh D T, Brck E, Trung N T, Klaasse J C P, Buschow K H J, Ou Z Q, Tegus O, Caron L 2008 J. Appl. Phys. 103 07B318
[7] Song L, Wang G F, Ou Z Q, Haschaolu O, Tegus O, Brck E, Buschow K H J 2009 J. Alloy. Compd. 474 388
[8] Bi L G, Tegus O, Yi R L T, Shi H R 2012 Acta Phys. Sin. 61 077103 (in Chinese) [毕力格, 特古斯, 伊日勒图, 石海荣 2012 61 077103]
[9] Huang K, Han R Q 1988 Solid Physics (Beijing: Higher Education Press) p408 (in Chinese) [黄昆, 韩汝琦1988固体物理学(北京: 高等教育出版社)第408页]
[10] Jiang S T, Li W 2003 Condensed Matter Magnetic Physics (Beijing: Science Press) pp54-56 (in Chinese) [姜寿亭, 李卫2003凝聚态磁性物理(北京: 科学出版社)第54–56页]
[11] Tegus O, Bao L H, Song L 2013 Chin. Phys. B 22 037506
[12] Geng Y X, Tegus O, Bi L G 2012 Chin. Phys. B 21 037504
[13] Liu Z S, Tegus O 2014 J. Phys. Experiment. 34 37 (in Chinese) [刘忠深, 特古斯 2014 物理实验 34 37]
[14] Huang S Q, Nie Y R, Shen X J 1994 Thermology (2nd Ed.) (Beijing: Higher Education Press) pp269-270 (in Chinese) [黄淑清, 聂宜如, 申先甲 1994 热学教程 (第二版) (北京: 高等教育出版社) 第269–270页]
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