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Investigation of hydrogen isotope permeation through F82H steel with and without a ceramic coating of Cr_2O_3-SiO_2 including CrPO_4 (out-of-pile tests)

机译：含和不含含CrPO_4的Cr_2O_3-SiO_2陶瓷涂层的F82H钢中氢同位素渗透的研究（桩外试验）

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Ceramic coating on structural materials has been considered to be used as a tritium permeation barrier for fusion power plants. In the present study, a series of hydrogen and deuterium permeation experiments was performed for ferritic F82H steel with and without a ceramic coating of Cr_2O_3-SiO_2 including CrPO_4. First, experiments were made on the permeability of F82H steel without coating at 300-600 ℃ in an atmosphere of 100-1000 Pa hydrogen and deuterium. The measured values of diffusion coefficient, permeability and solubility were in good agreement with those published previously. Next, experiments were performed on the permeability of F82H steel with the coating at 400-600 ℃ in an atmosphere of 1000-1500 Pa deuterium, and the permeation reduction factor (PRF) of the coating was determined. The obtained PRF at 600 ℃ was about 400, which is of the same order of magnitude as the PRF value of about 1000 previously evaluated for the same coating on an SS316 substrate. A significant decrease in the PRF (down to about 4%) was observed, when the sample temperature was lowered from 600 to 400 ℃.

机译：结构材料上的陶瓷涂层被认为是聚变电站的as渗透屏障。在本研究中，对具有和不具有包括CrPO_4的Cr_2O_3-SiO_2陶瓷涂层的铁素体F82H钢进行了一系列氢和氘渗透实验。首先，在氢气和氘气为100-1000 Pa的气氛下，在300-600℃下对未经涂层的F82H钢的渗透性进行了实验。扩散系数，磁导率和溶解度的测量值与先前公布的值非常一致。接下来，在1000-1500 Pa的氘气氛中，在400-600℃的温度下对F82H钢的涂层渗透性进行了实验，并确定了涂层的渗透减少因子（PRF）。在600℃下获得的PRF约为400，这与先前对SS316基板上的相同涂层评估的PRF值约为1000相同。当样品温度从600℃降低到400℃时，PRF显着下降（下降到约4％）。

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来源
《International Symposium on Fusion Nuclear Technology(ISFNT-7) pt.A; 20050522-27; Tokyo(JP) 》|2005年|P.701-705|共5页
会议地点 Tokyo(JP)
作者
T.V. Kulsartov; K. Hayashi; M. Nakamichi; S.E. Afanasyev; V.P. Shestakov; Y.V. Chikhray; E.A. Kenzhin; A.N. Kolbaenkov;
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作者单位

NIIETF, Kazakh State University, Tole-bi St., 96a Almaty 480012, Kazakhstan;

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会议组织
原文格式 PDF
正文语种 eng
中图分类反应堆安全 ;
关键词
hydrogen; deuterium; permeability; permeation reduction factor; F82H; ceramic coating;

机译：氢;氘;渗透率;渗透减少因子; F82H;陶瓷涂层;

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专利

1. Investigation of hydrogen isotope permeation through F82H steel with and without a ceramic coating of Cr_2O_3-SiO_2 including CrPO_4 (out-of-pile tests) [J] . T. V. Kulsartov, K. Hayashi, M. Nakamichi, Fusion Engineering and Design . 2006 ,第1a7期

机译：含或不含含CrPO_4的Cr_2O_3-SiO_2陶瓷涂层的F82H钢中氢同位素渗透的研究（桩外试验）
2. In-pile tritium permeation through F82H steel with and without a ceramic coating of Cr_2O_3-SiO_2 including CrPO_4 [J] . M. Nakamichi, T.V. Kulsartov, K. Hayashi, Fusion Engineering and Design . 2007 ,第15a24期

机译：含和不含Cr_2O_3-SiO_2（包括CrPO_4）陶瓷涂层的F82H钢中的堆中tri渗透
3. Effects of double-layer tungsten coatings on hydrogen isotopes plasma-driven and gas-driven permeation through F82H [J] . Y. Xu, Y. Hirooka Nuclear fusion . 2018 ,第7期

机译：双层钨涂层对氢同位素通过F82H等离子体驱动和气体驱动的影响
4. Investigation of hydrogen isotope permeation through F82H steel with and without a ceramic coating of Cr_2O_3-SiO_2 including CrPO_4 (out-of-pile tests) [C] . T.V. Kulsartov, K. Hayashi, M. Nakamichi, International Symposium on Fusion Nuclear Technology(ISFNT-7) pt.A . 2006

机译：CR_2O_3-SiO_2陶瓷涂层包括CRPO_4的陶瓷涂层，包括CRPO_4的氢异形渗透的研究（桩型试验）
5. Hydrogen Isotopes Plasma-Driven Permeation through Tungsten Coated Reduced Activation Ferritic Steel F82H [O] . Yue XU, Yoshi HIROOKA, Takuya NAGASAKA, 2017

机译：氢同位素通过钨涂层减小活化铁素体钢F82H的渗透性渗透

Investigation of hydrogen isotope permeation through F82H steel with and without a ceramic coating of Cr_2O_3-SiO_2 including CrPO_4 (out-of-pile tests)

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