由镁和二铀酸钠还原的铀氧化物的形态学

IF 1.4 3区 化学 Q4 CHEMISTRY, INORGANIC & NUCLEAR Radiochimica Acta Pub Date : 2023-12-26 DOI:10.1515/ract-2023-0221
Aaron M. Chalifoux, Logan Gibb, Kimberly N. Wurth, Travis Tenner, Tolga Tasdizen, Luther W. McDonald
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引用次数: 0

摘要

铀材料的形态分析已被证明是核鉴识目的的关键特征。本研究探讨了二呋喃酸镁(MDU)和二呋喃酸钠(SDU)在 10% 氢气环境中进行还原(有蒸汽存在和无蒸汽存在)时的形态变化。此外,还使用能量色散 X 射线光谱和扫描电子显微镜(SEM-EDX)对还原前后材料的杂质浓度进行了检测。使用粉末 X 射线衍射 (p-XRD) 分析了 MDU、SDU 和 UO x 样品的结构。通过这种方法,发现 MDU 中的氧化亚氮是二氧化硫、氧化亚氮和氧化镁的混合物,而 SDU 中的氧化亚氮是二氧化硫、氧化亚氮、氧化亚氮和氧化亚氮的混合物。通过扫描电子显微镜,MDU 和来自 MDU 的氧化铀具有相同的形态,都是由不规则的圆形颗粒组成的大团块。SEM-EDX 显示,在整个材料中分布着高铀和高镁含量的区域。来自 SDU 的 SDU 和 UO x 的形态略有不同。SDU由表面粗糙的板状片材组成。而从飞毛腿中提取的氧化亚铀则是由针状和亚圆形颗粒组成的大块团块,看起来略微烧结。SDU 和相关 UO x 材料的背向散射图像显示出亚圆形黑点,表明 Na 含量较高的区域,尤其是在蒸汽中生成的 UO x 材料中。SEM-EDX 证实了在 SDU 和来自 SDU 的 UO x 中存在高钠浓度斑点。元素组成在 MDU 和 SDU 还原前和还原后没有发生变化,这表明使用或不使用蒸汽进行还原不会影响镁或钠的浓度。利用扫描电子显微镜分析鉴定镁和钠杂质为核材料分析提供了一个易于使用的工具,高镁和高钠杂质可能分别表明是通过 MDU 或 SDU 加工的。利用卷积神经网络(CNN)进行的机器学习发现,与以前的出版物相比,MDU 和 SDU 具有独特的形态,而且在使用蒸汽和不使用蒸汽的情况下生成的材料之间存在区别特征。
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Morphology of uranium oxides reduced from magnesium and sodium diuranate
Morphological analysis of uranium materials has proven to be a key signature for nuclear forensic purposes. This study examines the morphological changes to magnesium diuranate (MDU) and sodium diuranate (SDU) during reduction in a 10 % hydrogen atmosphere with and without steam present. Impurity concentrations of the materials were also examined pre and post reduction using energy dispersive X-ray spectroscopy combined with scanning electron microscopy (SEM-EDX). The structures of the MDU, SDU, and UO x samples were analyzed using powder X-ray diffraction (p-XRD). Using this method, UO x from MDU was found to be a mixture of UO2, U4O9, and MgU2O6 while UO x from SDU were combinations of UO2, U4O9, U3O8, and UO3. By SEM, the MDU and UO x from MDU had identical morphologies comprised of large agglomerates of rounded particles in an irregular pattern. SEM-EDX revealed pockets of high U and high Mg content distributed throughout the materials. The SDU and UO x from SDU had slightly different morphologies. The SDU consisted of massive agglomerates of platy sheets with rough surfaces. The UO x from SDU was comprised of massive agglomerates of acicular and sub-rounded particles that appeared slightly sintered. Backscatter images of SDU and related UO x materials showed sub-rounded dark spots indicating areas of high Na content, especially in UO x materials created in the presence of steam. SEM-EDX confirmed the presence of high sodium concentration spots in the SDU and UO x from SDU. Elemental compositions were found to not change between pre and post reduction of MDU and SDU indicating that reduction with or without steam does not affect Mg or Na concentrations. The identification of Mg and Na impurities using SEM analysis presents a readily accessible tool in nuclear material analysis with high Mg and Na impurities likely indicating processing via MDU or SDU, respectively. Machine learning using convolutional neural networks (CNNs) found that the MDU and SDU had unique morphologies compared to previous publications and that there are distinguishing features between materials created with and without steam.
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来源期刊
Radiochimica Acta
Radiochimica Acta 化学-核科学技术
CiteScore
2.90
自引率
16.70%
发文量
78
审稿时长
6 months
期刊介绍: Radiochimica Acta publishes manuscripts encompassing chemical aspects of nuclear science and technology.
期刊最新文献
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