机构地区:[1]北京石油化工学院机械工程学院,北京102617
出 处:《中国表面工程》2024年第5期384-392,共9页China Surface Engineering
基 金:北京市科技计划重点项目(KZ202210017023);国家自然科学基金联合基金重点支持项目(U22B20127);北京市属高等学校高水平科研创新团队建设支持计划(BPHR20220110)。
摘 要:核电乏燃料池在长期的服役过程中不可避免会出现缺陷,目前针对核电站乏燃料池底面和壁面交界处L型拐角位置存在的裂纹缺陷修复研究还鲜有报道。自主设计一款局部干法水下角焊排水罩,并以第二代核电站乏燃料池覆板用的304L不锈钢为研究对象,开展局部干法水下激光填丝角焊试验。通过光学显微镜分析多层多道角焊缝的显微组织;用DPT-5着色渗透探伤剂对焊缝表面及其横截面进行渗透检测;采用显微硬度计测试不同区域的显微硬度分布情况;使用VersaSTAT 3F电化学工作站测定3.5%NaCl溶液中不同区域的极化曲线和Nyquist图谱。结果表明:焊缝的成型质量高,宏观和微观均无明显缺陷,显微组织主要由奥氏体和铁素体组成;焊缝区域层与层之间有明显的分界,热影响区不明显;搭接区由于多次热积累,铁素体含量减少,奥氏体晶粒变大;各区域晶粒尺寸大小的不同,致使硬度呈近似“M”形分布;极化曲线和Nyquist图谱结果均表明不同区域抗电化学腐蚀能力的顺序为BM>WM>HAZ。利用自主设计的角焊排水罩进行了水下激光填丝角焊修复试验,获得良好的角焊接头工艺性能,可为乏燃料池的裂纹修复提供技术参考。At the 75th United Nations General Assembly,China announced that its carbon dioxide emissions would peak before 2030,and the nation will achieve carbon neutrality before 2060.In this context,nuclear power,as a clean,safe,efficient,and stable green and low-carbon energy source that can be developed on a large scale,can play a significant role in promoting green development and helping to achieve the“dual carbon”goals.During the long-term service of nuclear power plants,the stainless steel cladding of the spent fuel pool experiences aging effects,and its failure mechanisms primarily include mechanical impact,uniform corrosion,stress corrosion cracking,and pitting corrosion.Reliable underwater maintenance technology is crucial to ensure the safe operation and smooth life extension of nuclear power plants.Underwater laser welding,a relatively efficient in-situ repair technology,has the advantages of accurate heat input,low residual stress,high welding quality,and fully automated welding process,in addition to being less affected by water pressure.It has received widespread attention for underwater operations.Currently,there are few reports on the repair of crack defects at the L-shaped corner position at the junction between the bottom and wall of spent fuel pools in nuclear power plants.Therefore,a local dry underwater corner welding drainage cover was independently designed,and a local dry underwater laser wire-filling corner welding test was conducted on the 304 L stainless steel used for second-generation spent fuel pool cladding in nuclear power plants.The microstructures of the multi-layer and multi-pass fillet welds were analyzed using an optical microscope.Penetration testing was performed on the surface and cross-section of the weld using a DPT-5 dye penetrant.The micro-hardness distribution in different areas was tested using a micro-hardness tester.The polarization curves and Nyquist spectra of different regions in a 3.5%NaCl solution were measured using a VersaSTAT 3F electrochemical workstation.The r
关 键 词:局部干法水下激光焊接 乏燃料池 拐角修复 显微组织 电化学腐蚀
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