Structures of UO2, UO2+x andU4O9 by neutron diffraction

Journal de Physique et le Radium Pub Date : 1964-05-01 DOI:10.1051/JPHYS:01964002505043100

B. Willis

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引用次数: 166

Abstract

Single crystals have been examined by neutron diffraction in the range of temperatures 20 °C to 1 100 °C and of compositions UO2 to U4O9. The investigations divide into three groups, relating to UO2, UO2+x (where 0 (for O') and along (for O") from the large interstices in the fluorite structure. The interstices themselves are not occupied. At the composition UO 2.25 the oxygen atoms are ordered to form the new phase U4O9. The " main " neutron reflexions of U4O9, corresponding to the fluorite-type peaks of UO2, are much stronger than the superlattice reflexions, which arise from the ordering of the interstitial oxygen atoms within the fluorite framework. The analysis of the intensities of the main reflexions shows that there are two kinds of interstitial sites, as in UO2+x : the 0' atoms are located 0.85 A along the directions from the centres of the large interstices, and the O" atoms 1.05 A along . Vacancies occur in the fluorite-type oxygen sites (0) but not in the uranium sites, and the chemical formula UO2.25 is expressed more fully as U1.00 O1.77 O'0.29 O"0.19. It is concluded that oxygen atoms cannot enter the fluorite structure individually but are incorporated in small groups containing O' and O" atoms and O vacancies. A complete structure determination of U4O9 must await the analysis of the superlattice reflexions.

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UO2, UO2+x和u4o9的中子衍射结构

用中子衍射法测定了温度在20℃~ 1100℃范围内的单晶，其成分为UO2 ~ U4O9。研究分为三组，分别与UO2, UO2+x(其中0 (O')和沿(O')从萤石结构的大间隙有关。间隙本身没有被占用。在组成u2.25时，氧原子有序地形成新相U4O9。U4O9的“主”中子反射，对应于UO2的萤石型峰，比萤石框架内间隙氧原子有序产生的超晶格反射强得多。主反射强度分析表明，存在两种间隙位置，如UO2+x: 0′原子位于距大间隙中心方向0.85 A处，O′原子位于距大间隙中心方向1.05 A处。空位出现在萤石型氧位(0)而不出现在铀位，化学式UO2.25更完整地表示为U1.00 O1.77 O'0.29 O' 0.19。结论是，氧原子不能单独进入萤石结构，而是以含有O'和O' '原子和O空位的小基团结合。U4O9的完整结构确定必须等待超晶格反射的分析。

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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Journal de Physique et le Radium

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