弹性后坐力检测
材料科学
辐照
脆化
氢
辐射损伤
氘
热脱附
氢脆
俘获
合金
分析化学(期刊)
解吸
放射化学
聚变能
抗辐射性
金属
质谱法
原子物理学
化学
等离子体
复合材料
冶金
腐蚀
纳米技术
薄膜
核物理学
生态学
有机化学
吸附
物理
生物
色谱法
作者
Anna Liski,Tomi Vuoriheimo,Pasi Jalkanen,Kenichiro Mizohata,Eryang Lu,J. Likonen,Jouni Heino,K. Heinola,Y. Zayachuk,A. Widdowson,Ko-Kai Tseng,Che‐Wei Tsai,Jien‐Wei Yeh,F. Tuomisto,T. Ahlgren
出处
期刊:Materials
[Multidisciplinary Digital Publishing Institute]
日期:2022-10-19
卷期号:15 (20): 7296-7296
被引量:2
摘要
High entropy alloys are a promising new class of metal alloys with outstanding radiation resistance and thermal stability. The interaction with hydrogen might, however, have desired (H storage) or undesired effects, such as hydrogen-induced embrittlement or tritium retention in the fusion reactor wall. High entropy alloy WMoTaNbV and bulk W samples were used to study the quantity of irradiation-induced trapping sites and properties of D retention by employing thermal desorption spectrometry, secondary ion mass spectrometry, and elastic recoil detection analysis. The D implantation was not found to create additional hydrogen traps in WMoTaNbV as it does in W, while 90 at% of implanted D is retained in WMoTaNbV, in contrast to 35 at% in W. Implantation created damage predicted by SRIM is 0.24 dpa in WMoTaNbV, calculated with a density of 6.044×1022 atoms/cm3. The depth of the maximum damage was 90 nm. An effective trapping energy for D in WMoTaNbV was found to be about 1.7 eV, and the D emission temperature was close to 700 °C.
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