Revealing uranium tetrafluoride microrods†

IF 5.2 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY
Harry Jang and Frederic Poineau
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引用次数: 0

Abstract

Anhydrous and hydrated UF4 microrods (5–25 μm) were prepared from the reactions of UO2 microrods (5–15 μm) with HF(g), produced from the decomposition of silver bifluoride (AgHF2, SBF). In order to optimize the preparation of UF4 mr, several experimental parameters including atmosphere (air or N2), temperature (150 or 250 °C) and amount of SBF were evaluated. In all reactions, rodlike morphologies were retained. At 250 °C, the reaction products always consist of an anhydrous UF4/hydrated UF4 mixture, while at 150 °C only hydrated UF4 was detected. Anhydrous UF4 microrods were obtained by dehydration of the anhydrous UF4/hydated UF4 mixture using TGA-DSC. Changing the atmosphere from air to N2 or reducing the amount of SBF by half did not affect the nature of the reaction products.

Abstract Image

揭示四氟化铀微晶†
无水和水合 UF4 微晶块(5-25 μm)是由 UO2 微晶块(5-15 μm)与氟化氢银(AgHF2,SBF)分解产生的 HF(g)反应制备的。为了优化 UF4 mr 的制备,对包括气氛(空气或 N2)、温度(150 或 250 °C)和 SBF 量在内的多个实验参数进行了评估。在所有反应中,都保留了棒状形态。在 250 °C 时,反应产物总是由无水 UF4/ 水合 UF4 混合物组成,而在 150 °C 时,只检测到水合 UF4。使用 TGA-DSC 对无水 UF4/ 水合 UF4 混合物进行脱水,得到了无水 UF4 微晶。将气氛从空气改为 N2 或将 SBF 的量减少一半都不会影响反应产物的性质。
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来源期刊
Materials Advances
Materials Advances MATERIALS SCIENCE, MULTIDISCIPLINARY-
CiteScore
7.60
自引率
2.00%
发文量
665
审稿时长
5 weeks
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