Deuterium diffusion in LiOH-water-corroded oxide layer of zirconium alloys

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• 作者：K. Une^a ; ^{une@nfd.co.jp} ; I. Takagi^b ; K. Sawada^b ; S. Miyamura^b ; M. Aomi^c
• 关键词：Zirconium alloys ; Hydrogen absorption ; Deuterium ; Diffusion ; Oxide layer
• 刊名：Progress in Nuclear Energy
• 出版年：2012
• 期刊代码：42_01491970
• 类别：pw
• 出版时间：May, 2012
• 卷：57
• 期：Complete
• 页码：93-100
• 文件大小：666 K

摘要

In order to clarify the hydrogen diffusion mechanism in the oxide layer of zirconium alloys, in situ hydrogen isotope diffusion in the oxide layer has been examined. The zirconium alloys used were Zircaloy-2, GNF-Ziron (Zircaloy-2 type alloy with high iron content) and VB (zirconium-based alloy with high iron and chromium contents). They were corroded in 1 or 0.1 M LiOH-containing water at 563 K, producing oxide layers of 1.1-2.1 渭m in thickness. The diffusion experiments were carried out in the temperature range from 488 to 633 K by using a combined technique of deuterium plasma exposure and nuclear reaction analysis for D (³He,p)⁴He reaction. From the transient deuterium profiles in the oxide layers, it was concluded the LiOH-water-corroded oxides had a single-layer structure, which was in contrast to the double-layer structure previously observed in steam-corroded oxide layers. The diffusion coefficients in the 1 M LiOH-water-corroded oxides evaluated from the deuterium profiles were smaller in the order of Zircaloy-2 > GNF-Ziron > VB at 573 K. For the 0.1 M LiOH-water-corroded oxide of GNF-Ziron, the diffusivity was lower than that of the 1 M LiOH-water-corroded oxide by a factor of 1/4. The present diffusion coefficients of the 1 M LiOH-water-corroded oxides of GNF-Ziron and VB were approximately 7 times larger than the previous data of the corresponding steam-corroded oxides. The deuterium diffusion properties in the oxides of the three alloys obtained in the in situ experiment were roughly consistent with their hydrogen absorption performances in the LiOH-water-corrosion tests, as well as in the previous steam corrosion tests.