FLUENCE OF PHASE FORMATION PROCESSES IN LITHIUM ZIRCONATECERAMICS ON STRENGTHAND THERMAL PROPERTIES

A. Kozlovskiy
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Abstract

The article is devoted to the study of the properties of lithium zirconate ceramics obtained by solid-phase synthesis. The choice of lithium zirconateceramics as objects of study is due to the great prospects for their use as materials for tritium propagation. Results of a study of the influence of the LiO/ZrO2/Li2ZrO3→ LiO/Li2ZrO3 → Li2ZrO3type phase transformations in ceramics, depending on the annealing temperature, on the strength and thermophysical parameters of ceramics are obtained. During the studies, it was found that the change in hardness and crack resistance are directly dependent on the phase composition and concentration of impurity phases in the composition of ceramics. It has been determined that the displacement of lithium oxideand zirconium dioxide impurity phases leads to an increase in hardness and an increase in resistance to cracking under single compression. It has been established that at annealing temperatures above 900°C, the change in strength and thermophysical parameters is minimal. At the same time, a change in the phase composition of the LiO/ZrO2/Li2ZrO3→ Li2ZrO3type ceramics leads to an increase in the thermal conductivity coefficient by (15-20)%
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锆酸锂陶瓷相形成过程对强度和热性能的影响
研究了采用固相合成法制备的锆酸锂陶瓷的性能。选择锆酸锂陶瓷作为研究对象是由于其作为氚扩散材料的巨大前景。研究了陶瓷中LiO/ZrO2/Li2ZrO3→LiO/Li2ZrO3→Li2ZrO3型相变随退火温度的变化对陶瓷强度和热物理参数的影响。在研究过程中发现,硬度和抗裂性能的变化直接取决于陶瓷成分中杂质相的组成和浓度。经测定,氧化锂和二氧化锆杂质相的置换导致硬度的增加和单次压缩下抗裂性的增加。在900℃以上的退火温度下,强度和热物性参数的变化最小。同时,改变LiO/ZrO2/Li2ZrO3→Li2ZrO3型陶瓷的相组成,导热系数提高了(15 ~ 20)%
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1.10
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15
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