用EXAFS分析模拟堆芯碎片的化学状态

Progress in Nuclear Science and Technology Pub Date : 2018-11-01 DOI:10.15669/PNST.5.200

Y. Okamoto, M. Takano

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引用次数: 4

摘要

采用同步辐射扩展x射线吸收精细结构(EXFAS)技术研究了模拟堆芯碎片样品中铀、锆、铁和镧系元素的化学状态。根据铀的EXAFS分析，它们最可能的局部结构是立方状的萤石UO2。特别的是，在UO2-ZrO2-Fe2O3-CaO样品中发现了五价铀，其中U-O距离的最近距离明显短于其他含四价铀样品。氧化锆周围的局部结构可分为立方体、四边形和钙稳定氧化锆。大多数样品的铁的氧化态为二价，在一些样品中还检测到金属相。模拟碎屑中微量的镧系元素(Nd和Gd)似乎与UO2以固溶体形式存在。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Chemical state analysis of simulated corium debris by EXAFS

The chemical state of uranium, zirconium, iron and lanthanide elements in simulated corium debris samples prepared in lab-scale were investigated by synchrotron radiation based extended X-ray absorption fine structure (EXFAS) technique. According to the EXAFS analysis of uranium, their most likely local structure was cubic like fluorite UO2. Exceptionally, pentavalent uranium was observed in the UO2-ZrO2-Fe2O3-CaO sample, in which the nearest U-O distance was clearly shorter than those of other samples containing tetravalent uranium. The local structure around zirconium could be classified into cubic, tetragonal and calcia stabilized zirconia with CaO. The oxidation state of iron was divalent for the most samples and a metallic phase was also detected in some of them. The small amount lanthanide elements (Nd and Gd) in the simulated debris seem to exist as a solid solution with UO2.

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Progress in Nuclear Science and Technology

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