凝气器内部牺牲阳极的失效分析及处理措施
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摘要
国内某核电厂的凝汽器采用牺牲阳极进行保护,在检查过程中发现阳极出现溶解不均匀、且紧固件发生腐蚀。本文初步分析了阳极失效及紧固件腐蚀的原因,并制定了合理的处理措施。
Sacrificial Anodes are used to protect Condenser in a domestic nuclear power plant. During the inspection, it was discovered that the sacrificial anodes were dissolved unevenly and the fasteners of anode were corroded badly. Failure Analysis of Sacrificial Anode and fastener is discussed in this paper, and the effective treatment is provided.
Sacrificial Anodes are used to protect Condenser in a domestic nuclear power plant. During the inspection, it was discovered that the sacrificial anodes were dissolved unevenly and the fasteners of anode were corroded badly. Failure Analysis of Sacrificial Anode and fastener is discussed in this paper, and the effective treatment is provided.
引文
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[5]吴玮巍,蒋益明等.Cl离子对304、316不锈钢临界点蚀温度的影响[J].腐蚀科学与防护技术.2007,19(1):16-19.
[6]徐峰.滨海电站凝汽器管材的选择[J].华电技术.2009,31(06):39-41.
[2]郭为民,樊洪等.锌合金牺牲阳极保护失效原因分析[J].材料开发与应用.2004,19(4):24-26.
[3]辛森森,李谋成等.海水温度和浓缩度对316L不锈钢点蚀性能的影响[J].金属学报.2014,50(3):373-378.
[4]胡丽华,杜楠等.1Cr18Ni9Ti不锈钢在酸性Na Cl溶液中的点蚀电化学特征[J].失效分析与预防.2006,01(03):6-10.
[5]吴玮巍,蒋益明等.Cl离子对304、316不锈钢临界点蚀温度的影响[J].腐蚀科学与防护技术.2007,19(1):16-19.
[6]徐峰.滨海电站凝汽器管材的选择[J].华电技术.2009,31(06):39-41.