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室温磁热效应直接测量仪的研制 被引量:8

Direct Measurement Device for Room Temperature Magnetocaloric Effect
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摘要 简单介绍了室温磁热效应测量仪的工作原理及组成,并且测量了Gd样品的磁热效应T-ΔTad曲线,该仪器具有操作简单方便、测量费用低廉等优点,它可以作为室温磁制冷材料研究的重要测量手段,同时也可以解决目前磁制冷材料普遍只研究等温磁熵变的不足的问题。 This paper simply introduces the make-ups and working principle of the room temperature magne-tocaloric effect (MCE) direct measurement device. And the MCE T-△Tad curve of the rare earth metal Gd sample is measured. This device has many advantages such as simple operation and low measurement cost and so on. Therefore this device can serve as important means to research room temperature refrigerants. Meanwhile its measurement results can solve the problem of a lack of △Tad data in the resent room temperature refrigerants research field.
作者 金培育 黄焦宏 刘翠兰 郭锋 刘金荣 邱巨峰 闫宏伟
机构地区 包头稀土研究院 内蒙古工业大学材料学院
出处 《稀土》 EI CAS CSCD 北大核心 2007年第6期35-38,共4页 Chinese Rare Earths
基金 内蒙古科技攻关项目(20050611)
关键词 磁热效应 磁热效应直接测量法 磁热效应直接测量仪 Gd的磁热效应 magnetocaloric effect (MCE) MCE direct measurement method MCE direct measurement device magnetocaloric effect of metal Gd
分类号 O482.5 [理学—固体物理]
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参考文献5

  • 1Pecharsky V K,Gschneidner K A. Comparison of the magnetocaloric effect derived from heat capacity, direct, and magnetization measurements[J]. Advance in Cryagenic Engineering, 1996,42 : 425-430.
  • 2Gschneidner K A, Pecharsky V K. The influence of magnetic field on the thermal properties of solids[J]. Materials Science and Engineering, 2000, A287 :301-310.
  • 3Feng--xia Hu, Max IIyn,Tishin A M,et al. Direct measurements of magnetocaloric effect in the first- order system LaFe11.7Si1.3 [J]. Appl Phys, 2003, 93 (9): 5503-5506.
  • 4金培育,黄焦宏,郭锋,刘金荣,邱巨峰,闫宏伟.室温磁热效应直接测量仪的误差分析[J].稀土,2005,26(6):37-40. 被引量:3
  • 5黄焦宏,金培育,刘金荣,徐来自,张久兴.磁热效应的直接测量与测量仪器[J].稀有金属,2005,29(4):584-586. 被引量:14

二级参考文献14

  • 1吴卫,卢定伟.采用国产钆对Gd-Si-Ge合金的研究[J].中国稀土学报,2004,22(5):631-631. 被引量:3
  • 2[1]Pecharsky V K, Gschneidner K A Jr. Giant magnet-ocaloric effect in Gd5(Si2Ge2) [J]. Phys.Rev.Lett., 1997, 78: 4494.
  • 3[2]Pecharsky V K, Gschneidner K A Jr. Tunable magnetic regenerator alloys with a giant magnetocaloric effect for magnetic refrigeration from ~20 to ~290 K [J]. Appl. Phys. Lett., 1997, 70(24): 3229.
  • 4[4]Tegus O, Bruck E, Buschow K H J, et al. Transition-metal-based magnetic refrigerants for room-temperature applications [J]. Nature, 2002, 415: 150.
  • 5[6]Giguere A, Foldeaki M, Ravi B, et al. Direct measurement of the giant adiabatic temperature change in Gd5Si2Ge2 [J]. Phys. Rev. Lett., 1999, 83: 2262.
  • 6[8]Gschneidner K A Jr, Pecharsky V K. Magnetocaloric materials [J]. Annu. Rev. Mater. Sci., 2000, 30: 387.
  • 7Pecharsky V K,Gschneidner K A.Giant magneticaloric effect in Gd5(Si2Ge2)[J].Physical Review Letters,1997,78(23):4494-4497.
  • 8Pecharsky V K,Gschneidner K A.Tunable magnetic regenerator alloys with a giant magnetocaloric effect for magnetic refrigeration from~20 to ~290K[J].Appl Phys Lett,1997,70(24):3299-3301.
  • 9Tegus O,Bruck E,Buschow K H J,et al.Transition-metal-based magnetic refrigerants for room-temperature appllcations[J].Nature,2002,415:150-152.
  • 10Pecharsky V K,Gschneidner K A.Comparison of the magnetocaloric effect derived from heat capacity,direct,and magnetization measurements[J].Advance in Cryagenic Engineering,1996,42:425-430.

共引文献13

同被引文献48

引证文献8

二级引证文献25

稀土
2007年 第6期

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