晶粒尺寸对多晶铋锑晶格热导率影响的观察

E. H. Volckmann, H. Goldsmid, J. Sharp
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引用次数: 13

摘要

在80 ~ 300 K范围内测量了多晶烧结铋的导热系数。样品的平均粒级在1 ~ 19粒级之间。电子对热导率的贡献是通过一种技术来确定的,该技术涉及在高达1.0特斯拉的横向场中比较磁电阻和磁热电阻效应。电子热导率似乎比预期的要小一些,记住应该有一个显著的双极贡献,但该技术被认为是合理的,因为它产生了大颗粒样品的晶格热导率,在主晶体方向上介于单晶值之间。晶格导热系数随晶粒尺寸的减小而减小。根据声子的晶界散射已经预测了这种减少,但它发生在比预期更大的晶粒尺寸上。这种效应可能是由于声子在点或线缺陷上的散射,这些缺陷是由于粉末冶金而引入的。然而,鉴于在理论中所作的简化,不能排除晶界散射是原因。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Observation of the effect of grain size on the lattice thermal conductivity of polycrystalline bismuth antimony
The thermal conductivity of polycrystalline sintered BiSb has been measured from 80 to 300 K. The samples had mean grain sizes between 1 /spl mu/m and 19 /spl mu/m. The electronic contribution to the thermal conductivity was determined by a technique that involves the comparison of the magneto-resistance and the magneto-thermal resistance effects in transverse fields of up to 1.0 tesla. The electronic thermal conductivity seems to be somewhat smaller than expected, bearing in mind that there should be a significant bipolar contribution, yet the technique is believed to be sound since it yields a lattice thermal conductivity for large-grained samples that is intermediate between the values for single crystals in the principal crystal directions. The lattice thermal conductivity is found to decrease as the grain size is reduced. Such a decrease has been predicted on the basis of grain boundary scattering of phonons but it is occurring at grain sizes somewhat larger than expected. It is possible that the effect may be due to the scattering of phonons on point or line defects that have been introduced as a consequence of powder metallurgy. Nevertheless, grain boundary scattering cannot be ruled out as the cause, in view of the simplifications that were made in the theory.
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