锆在铝硅酸盐玻璃中的极限溶解度

IF 0.9 Q4 CHEMISTRY, INORGANIC & NUCLEAR
V. E. Eremyashev, G. G. Korinevskaya, M. A. Rassomakhin, D. E. Zhivulin, S. M. Shaidullin, P. V. Kozlov
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引用次数: 0

摘要

摘要 锆是进入玻璃并影响其特性的关键高放射性废物成分之一。锆的来源多种多样,如在核燃料后处理过程中燃料棒包壳的部分腐蚀损坏,或玻璃熔炉中的含锆耐火材料在玻璃熔体中的溶解。此外,锆作为裂变产物存在于 SNF 中。通过电子显微镜研究了锆在铝硼硅酸盐玻璃中的溶解情况,这种玻璃是作为高放射性废物玻璃化的主材料而开发的。研究了锆在玻璃相和晶体相之间的分布。确定了最佳成分比例,以确保锆最大限度地融入主材料的含玻璃部分。所得结果可作为调整用于固定含锆高放射性废物的含玻璃硼硅酸盐主材料合成参数的依据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Limiting Solubility of Zirconium in Aluminoborosilicate Glasses

Limiting Solubility of Zirconium in Aluminoborosilicate Glasses

Limiting Solubility of Zirconium in Aluminoborosilicate Glasses

Zirconium is one of critical high-level waste components that get into the glass and affect its properties. There are various zirconium sources such as partial corrosion damage of fuel rod clads in the course of SNF reprocessing or dissolution of the zirconium-containing refractory material of the glass-making furnace in the glass melt. Furthermore, zirconium is present in SNF as a fission product. Dissolution of zirconium in aluminoborosilicate glasses developed as a host material for high-level waste vitrification was studied by electron microscopy. The zirconium distribution between the glass and crystalline phases was studied. The optimum component ratio ensuring maximal incorporation of zirconium into the glass-containing fraction of the host material was determined. The results obtained can serve as a basis for adjusting the synthesis parameters of glass-containing borosilicate host materials used for immobilization of zirconium-containing high-level waste.

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来源期刊
Radiochemistry
Radiochemistry CHEMISTRY, INORGANIC & NUCLEAR-
CiteScore
1.30
自引率
33.30%
发文量
51
期刊介绍: Radiochemistry  is a journal that covers the theoretical and applied aspects of radiochemistry, including basic nuclear physical properties of radionuclides; chemistry of radioactive elements and their compounds; the occurrence and behavior of natural and artificial radionuclides in the environment; nuclear fuel cycle; radiochemical analysis methods and devices; production and isolation of radionuclides, synthesis of labeled compounds, new applications of radioactive tracers; radiochemical aspects of nuclear medicine; radiation chemistry and after-effects of nuclear transformations.
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