材料科学
辐照
无定形固体
高熵合金
合金
氮化物
透射电子显微镜
微观结构
溅射
复合材料
薄膜
分析化学(期刊)
结晶学
纳米技术
图层(电子)
化学
物理
核物理学
色谱法
作者
Ji Wang,Rui Shu,Anna Elsukova,Smita G. Rao,Jianlong Chai,Yabin Zhu,Cunfeng Yao,Per O. Å. Persson,Arnaud le Febvrier,Per Eklund
标识
DOI:10.1016/j.surfcoat.2022.129198
摘要
Refractory high-entropy protective coatings are of interest for nuclear fuel cladding applications due to their corrosion resistant properties and irradiation resistance at elevated temperature. Here, TiZrNbTaV metallic and (TiZrNbTaV)N films were deposited by magnetron co-sputtering. The metal elemental contents of both films were nearly equiatomic. These films were irradiated by Xe ions at room temperature and 500 °C, and examined by X-ray diffraction and transmission electron microscopy. The as-deposited (TiZrNbTaV)N film showed a single NaCl-type fcc phase and a pronounced columnar growth structure, which could remain intact after irradiation treatments. In contrast, the as-deposited TiZrNbTaV film exhibited an amorphous structure and formed a bcc phase structure after irradiation at 500 °C. The TiZrNbTaV film after irradiation at 500 °C composed of depth-dependent size of grains. This distribution of grain size is consistent with simulated displacement damage. The stable structure of (TiZrNbTaV)N film under high temperature irradiation indicates that these materials have potential for use as protective coatings for nuclear fuel claddings.
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