文章信息/Info

Title:

Research Progress in Anticorrosion Technology of Uranium

文章編號:

1674-3962(2023)01-0047-07

作者:

陳麗1; 劉瑞軒1; 孟樹文2; 賴振國3; 4; 高凱雄3

（1. 蘭州理工大學石油化工學院，甘肅 蘭州 730000）（2. 中核四○四有限公司，甘肅 嘉峪關 735100）（3. 中國科學院蘭州化學物理研究所 中國科學院材料磨損與防護重點實驗室，甘肅 蘭州730000）（4. 中國科學院大學材料與光電技術學院，北京 101408）

Author(s):

CHEN Li1;  LIU Ruixuan1;  MENG Shuwen2;  LAI Zhenguo3; 4;  GAO Kaixiong3

(1. College of Petrochemical Technology, Lanzhou University of Technology, Lanzhou 730000, China) (2. 404 Limited Company of China National Nuclear Corporation, Jiayuguan 735100, China) (3. Key Laboratory of Sciences and Technology on Wear and Protection of Materials, Lanzhou Institute of Chemical Physics, Chinese Academy of Sciences, Lanzhou 730000, China) (4. School of Materials and Optoelectronic Technology, University of Chinese Academy of Sciences, Beijing 101408, China)

關鍵詞:

鈾; 防腐; 電鍍; 離子注入; 離子鍍; 脈沖激光

Keywords:

uranium;  anticorrosion;  electroplating;  ion implantation;  ion plating;  pulse laser

分類號:

TG174.4

DOI:

10.7502/j.issn.1674-3962.202111008

文獻標志碼:

A

摘要:

金屬鈾因具有優異的放射性能在國防和核能領域具有重要的戰略價值。然而，由于鈾具有高的反應活性，在大氣環境中極易被腐蝕。在眾多防腐技術中，表面處理技術被廣泛用來提高鈾的耐腐蝕性能。聚焦鈾表面防腐的需求，重點綜述了表面合金化、電鍍、離子注入、離子鍍等鈾的防腐技術的研究進展，并針對不同技術目前面臨的難題，展望了其未來的發展。近年來，離子注入、離子鍍技術成為鈾防腐領域的研究重點，具有很大的發展潛力。然而，金屬鈾的防腐性能仍需更進一步提高，復合沉積技術可以結合各種技術的優點，有望制備出耐蝕性更好的鈾表面防腐涂層。此外，高功率脈沖磁控濺射技術在防腐領域擁有較大的應用潛力，是制備鈾表面高性能防腐涂層的潛在方法，值得進一步研究。另一方面，合理利用鈾的氫化腐蝕特性，可能使該材料成為一種優秀的儲氫材料。

Abstract:

Uranium is widely used in the fields of national defense and nuclear energy because of its high density and excellent nuclear performance. However, uranium is easily corroded in corrosive environment due to its high reactivity. Surface treatment technology is widely used to improve the corrosion resistance of uranium. This paper focuses on the requirements of uranium surface anti-corrosion.The research progress of uranium corrosion protection technologies including surface alloying, electroplating, ion implantation and ion plating is reviewed. The future development of different technologies is prospected according to the current problems. At present, the ion implantation and ion plating have become the focus in recent years and have great development potential. However, the corrosion resistance of uranium metal still needs to be further improved. Composite deposition technology can combine the advantages of various technologies and it is expected to prepare uranium corrosion resistant coatings with better corrosion resistance. In addition, high-power pulsed magnetron sputtering technology has great application potential and is a potential method to prepare high-performance uranium anticorrosion coatings, which is worthy of further study.On the other hand, uranium can become an excellent hydrogen storage material by making rational use of its hydrogen corrosion characteristics.