固相合成含锂陶瓷的形态特征研究

IF 0.2 Q4 PHYSICS, MULTIDISCIPLINARY Recent Contributions to Physics Pub Date : 2021-04-16 DOI:10.26577/RCPH.2021.V76.I1.05
D. Shlimas, I. Kenzhina, A. Kozlovskiy
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摘要

本工作致力于研究固相合成和随后的热退火制备的LixTi1-xO3陶瓷的各种形态特征。对这些陶瓷的兴趣是由于它们作为增殖材料或氚繁殖毯的巨大潜力。合成技术的选择是由于改变形态特征和元素组成的广泛可能性,由于各种成分以不同的化学计量比混合。在研究过程中发现,对于含锂陶瓷,在800℃的温度下进行热处理会导致以下变化:对于锂含量为X=0.1-0.2的陶瓷,其形状从菱形和立方体转变为类金刚石和六面体,晶粒尺寸急剧增大,这与烧结工艺有关。在X=0.3的陶瓷结构中,锂离子浓度的增加导致大晶粒的形成,晶粒尺寸在300 ~ 500 nm之间。关键词:含锂陶瓷,固相合成,二氧化钛,团聚体,热退火
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Study of morphological features of lithium-containing ceramics obtained by solid-phase synthesis
This work is devoted to the study of various morphological features of LixTi1-xO3 ceramics obtained by solid-phase synthesis and subsequent thermal annealing. Interest in these ceramics is due to the great potential for their use as materials for breeders or blankets for tritium reproduction. The choice of synthesis technology is due to the wide possibilities of changing morphological features and elemental composition, due to mixing of various components in different stoichiometric ratios. During the research, it was found that for lithium-containing ceramics, thermal annealing at a temperature of 800°C leads to the following changes: for ceramics with a lithium content of X=0.1-0.2, a change in shape is observed from rhomboid and cubic to diamond-like and hexahedral, with a sharp increase in grain sizes, which is associated with sintering processes. An increase in lithium concentration in the ceramic structure of X=0.3 leads to the formation of large grains, the size of which varies from 300 nm to 500 nm. Keywords: lithium-containing ceramics, solid-phase synthesis, titanium dioxide, agglomerates, thermal annealing
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