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金属铀在典型环境气氛中的腐蚀动力学与机制研究现状

Research Progress of Corrosion Kinetics and Mechanism of Uranium Metal in Typical Environmental Atmosphere
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摘要 金属铀是一种重要的战略核材料,在能源系统和国防工业中广泛应用。然而,金属铀在使役中极易被环境气氛快速腐蚀,不仅会产生放射性腐蚀产物还会对使用性能和寿命带来严重威胁。虽然金属铀的腐蚀相关研究已持续开展了数十年,但由于金属铀具有放射性、腐蚀速率快、腐蚀产物种类多等原因,导致目前对金属铀的腐蚀行为认识还不够清楚。本文基于金属铀在氧气、水汽和含氧水汽中的腐蚀行为的相关研究,简介了金属铀的典型腐蚀产物,从腐蚀动力学模型、腐蚀速率方程和活化能方面梳理了金属铀的腐蚀动力学研究现状,从腐蚀介质的解离扩散、以及关键中间腐蚀产物演化等方面综述了金属铀的腐蚀机制研究进展,总结了目前较为清晰和统一的认识,指出了当前该研究领域中仍存在的争议性问题,展望了未来的主要研究方向,为金属铀的腐蚀评估、寿命预测和腐蚀防护提供研究基础。 Uranium is an important strategic nuclear material,which has been widely used in energy systems and defense industries.However,uranium is easily corroded quickly by the environmental atmosphere in service,which not only produces radioactive c orrosion products but also poses a serious threat to service performance and life.Although research on the corrosion of uranium has been carried out for decades,the understanding of the corrosion behavior of uranium is not clear because of its radioactivity,fast corrosion rate,and various corrosion products.Based on the relevant research on the corrosion behavior of uranium in oxygen,water vapor,and oxygen-containing water vapor,work briefly introduces the typical corrosion products of uranium,and reviews the current research status of uranium corrosion kinetics from the aspects of corrosion kinetics model,corrosion rate equation and activation energy.This study reviews the research progress of the corrosion mechanism of uranium from the aspects of the dissociation diffusion of corrosive media and the evolution of key intermediate corrosion products,summarizes the currently clear and unified understanding points out the current controversial issues in the research field,and looks forward to the main research directions in the future,providing research basis for the corrosion assessment,life prediction and corrosion protection of uranium.
作者 陈广 丁茜 张广丰 李海波 李赣 Chen Guang;Ding Qian;Zhang Guangfeng;Li Haibo;Li Gan(Science and Technology on Surface Physics and Chemistry Laboratory,Mianyang 621908,China)
机构地区 表面物理与化学重点实验室
出处 《稀有金属材料与工程》 SCIE EI CAS CSCD 北大核心 2024年第12期3553-3568,共16页 Rare Metal Materials and Engineering
基金 中国工程物理研究院基金(YZJJZQ2022012,YZJJZL2023106) 国家自然科学基金(22073084)。
关键词 金属铀 典型环境气氛 腐蚀动力学 腐蚀机制 uranium typical environmental atmosphere corrosion kinetics corrosion mechanism
分类号 TG146.8 [金属学及工艺—金属材料]
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稀有金属材料与工程
2024年 第12期

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