采用脉冲加热技术同时测量热容量、电阻率和半球全发射率:锆,1500至2100K
Simultaneous Measurements of Heat Capacity, Electrical Resistivity and Hemispherical Total Emittance by a Pulse Heating Technique: Zirconium, 1500 to 2100 K.
作者信息
Cezairliyan A, Righini F
机构信息
Institute for Materials Research, National Bureau of Standards, Washington, D.C. 20234.
出版信息
J Res Natl Bur Stand A Phys Chem. 1974 Jul-Aug;78A(4):509-514. doi: 10.6028/jres.078A.034.
Abstract
Simultaneous measurements of heat capacity, electrical resistivity and hemispherical total emittance of zirconium in the temperature range 1500 to 2100 K by a subsecond duration, pulse heating technique are described. The results are expressed by the relations: where is in J · mol · K, is in 10 Ω · m, and is in K. Estimated inaccuracies of the measured properties are: 3 percent for heat capacity, 2 percent for electrical resistivity and 5 percent for hemispherical total emittance.
摘要
描述了通过亚秒级持续时间的脉冲加热技术,在1500至2100K温度范围内同时测量锆的热容量、电阻率和半球总发射率。结果由以下关系表示:其中,单位为J·mol·K,单位为10Ω·m,单位为K。所测性质的估计误差为:热容量3%,电阻率2%,半球总发射率5%。
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引用本文的文献
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2
Thermodynamic Studies of the → Phase Transformation in Zirconium Using a Subsecond Pulse Heating Technique.使用亚秒级脉冲加热技术对锆中→相变的热力学研究。
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本文引用的文献
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High-Speed (Subsecond) Measurement of Heat Capacity, Electrical Resistivity, and Thermal Radiation Properties of Molybdenum in the Range 1900 to 2800 K.1900至2800K范围内钼的热容量、电阻率和热辐射特性的高速(亚秒级)测量
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