Influence of suppressed blistering by heavy ion pre-damage on deuterium retention in tungsten

IF 2.3 2区 物理与天体物理 Q1 NUCLEAR SCIENCE & TECHNOLOGY Nuclear Materials and Energy Pub Date : 2024-10-16 DOI:10.1016/j.nme.2024.101775
Ting Wang , Yue Yuan , Xiu-Li Zhu , Wangguo Guo , Jipeng Zhu , Shiwei Wang , Long Cheng , Guang-Hong Lu
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Abstract

Surface damage and fuel retention are one of the major threats to the performance of plasma-facing materials (PFMs) in ITER and future fusion reactors. This work aims to investigate the influence of suppressed blistering by heavy ion pre-damage on deuterium (D) retention in tungsten (W). Recrystallized W samples were irradiated with 3.5 MeV iron (Fe13+) ions at room temperature to create displacement damage with a peak damage level of 0.1 dpa. Afterwards, a series of low-energy (38 eV) D plasma exposures were performed at 500 K. Three exposure fluences below and above the blistering threshold (5 × 1024 ∼ 3 × 1025 D m−2) of the pre-damaged W are selected to decouple and couple the damage-induced defects and blistering-induced defects, respectively. Surface observations show that no blisters are formed in un-damaged W after low-fluence D exposure (5 × 1024 D m−2), whereas severe blistering (surface coverage ratio: 34.2 %) occurs in the high-fluence case (3 × 1025 D m−2). In contrast, only a small number of blisters (4.2 %) are formed in Fe-damaged W when D fluence reaches 3 × 1025 D m−2. Moreover, Fe pre-damage increases D retention by a factor of 3.33 and 1.20 at the low-fluence (5 × 1024 D m−2) and medium-fluence (1 × 1025 D m−2) D exposure, respectively. While in the high-fluence case (3 × 1025 D m−2), the enhancement effect of D retention in Fe-damaged W is significantly weakened, such that retention is lower for damaged W, probably due to the significant suppression effect on surface blistering and its accompanying defect formation. This work highlights the suppressed blistering-induced D retention by pre-existing damage in W.
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重离子预破坏抑制起泡对钨中氘保留的影响
表面损伤和燃料滞留是热核实验堆和未来聚变反应堆中面向等离子体的材料(PFMs)性能的主要威胁之一。这项工作旨在研究重离子预损伤抑制起泡对钨(W)中氘(D)保留的影响。在室温下用 3.5 MeV 的铁(Fe13+)离子对重结晶的 W 样品进行辐照,以产生峰值为 0.1 dpa 的位移损伤。选择了低于和高于预损伤 W 的起泡阈值(5 × 1024 ∼ 3 × 1025 D m-2)的三种曝光通量,以分别解耦和耦合损伤引起的缺陷和起泡引起的缺陷。表面观察结果表明,在低荧光 D 暴露(5 × 1024 D m-2)后,未损坏的 W 不会形成水泡,而在高荧光 D 暴露(3 × 1025 D m-2)的情况下,则会出现严重的水泡(表面覆盖率:34.2%)。相反,当 D 通量达到 3 × 1025 D m-2 时,铁损伤的 W 只形成少量水泡(4.2%)。此外,在低通量(5 × 1024 D m-2)和中通量(1 × 1025 D m-2)的 D 暴露下,铁预破坏会使 D 保持率分别提高 3.33 和 1.20 倍。而在高辐照度(3 × 1025 D m-2)情况下,铁损伤 W 中 D 保持率的增强效应明显减弱,因此损伤 W 的保持率较低,这可能是由于对表面起泡及其伴随的缺陷形成具有显著的抑制作用。这项研究凸显了 W 中预先存在的损伤对水泡诱导的 D 保留的抑制作用。
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来源期刊
Nuclear Materials and Energy
Nuclear Materials and Energy Materials Science-Materials Science (miscellaneous)
CiteScore
3.70
自引率
15.40%
发文量
175
审稿时长
20 weeks
期刊介绍: The open-access journal Nuclear Materials and Energy is devoted to the growing field of research for material application in the production of nuclear energy. Nuclear Materials and Energy publishes original research articles of up to 6 pages in length.
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