Thermal由氧化钪、钇、钆和氧化镱稳定的单晶氧化锆的导电性

D. Agarkov, M. Borik, G. Korableva, A. V. Kulebyakin, E. Lomonova, F. Milovich, V. Myzina, P. Popov, N. Tabachkova
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引用次数: 0

摘要

研究了R = (Gd, Yb, Sc, Y)、(ZrO2)0.9(Sc2O3)0.09(Gd2O3)0.01、(ZrO2)0.9(Sc2O3)0.09(Yb2O3)0.01的(ZrO2)0.9(Sc2O3)0.09(Yb2O3)0.01的(ZrO2)0.9(R2O3)0.1固溶体单晶的相组成和导热性。用定向熔融结晶法在冷颅骨中生长单晶。用x射线衍射和拉曼光谱研究了晶体的相组成。利用纵向热流的绝对稳态技术在50-300 K范围内研究了晶体的导热性。我们发现,在总稳定氧化物浓度为10mol .%时,晶体的相组成取决于稳定阳离子的离子半径。(ZrO2)0.9(Sc2O3)0.1晶体在50 ~ 300 K范围内导热系数最低,而(ZrO2)0.9(Gd2O3)0.1固溶体在300 K范围内导热系数最低。实验数据分析表明,晶体的热导率主要取决于稳定阳离子的相组成和离子半径。共掺杂氧化物阳离子质量差异引起的声子散射对导热系数的影响较小。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Thermal conductivity of single crystals zirconia stabilized by scandium, yttrium, gadolinium, and ytterbium oxides
The phase composition and heat conductivity of (ZrO2)0.9(R2O3)0.1 solid solution single crystals have been studied, where R = (Gd, Yb, Sc, Y), (ZrO2)0.9(Sc2O3)0.09(Gd2O3)0.01 and (ZrO2)0.9(Sc2O3)0.09(Yb2O3)0.01. Single crystals have been grown by directional melt crystallization in a cold skull. The phase composition of the crystals has been studied using X-ray diffraction and Raman spectroscopy. The heat conductivity of the crystals has been studied using the absolute steady-state technique of longitudinal heat flow in the 50–300 K range. We show that at a total stabilizing oxide concentration of 10 mol.% the phase composition of the crystals depends on the ionic radius of the stabilizing cation. The (ZrO2)0.9(Sc2O3)0.1 crystals have the lowest heat conductivity in the 50–300 K range while the (ZrO2)0.9(Gd2O3)0.1 solid solutions have the lowest heat conductivity at 300 K. Analysis of the experimental data suggests that the heat conductivity of the crystals depends mainly on the phase composition and ionic radius of the stabilizing cation. Phonon scattering caused by the difference in the weight of the co-doping oxide cation has a smaller effect on the heat conductivity.
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