Stress-Corrosion Cracking of a Nuclear Steam-Generator Vessel at Low Concentrations of Chloride Ion

ASM Failure Analysis Case Histories: Power Generating Equipment Pub Date : 2019-06-01 DOI:10.31399/asm.fach.power.c0048814

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Abstract

A nuclear steam-generator vessel constructed of 100-mm thick SA302, grade B, steel was found to have a small leak. The leak originated in the circumferential closure weld joining the transition cone to the upper shell. The welds had been fabricated from the outside by the submerged arc process with a backing strip. The backing was back gouged off, and the weld was completed from the inside with E8018-C3 electrodes by the shielded metal arc process. Striations of the type normally associated with progressive or fatigue-type failures including beach marks that allowed tracing the origin of the fracture to the pits on the inner surface of the vessel were revealed. Copper deposits with zinc were revealed by EDS examination of discolorations. Pitting was revealed to have been caused by poor oxygen control in the steam generators and release of chloride into the steam generators. It was concluded by series of controlled crack-propagation-rate stress-corrosion tests that A302, grade B, steel was susceptible to transgranular stress-corrosion attack in constant extension rate testing with as low as 1 ppm chloride present. It was recommended to maintain the coolant environment low in oxygen and chloride. Copper ions in solution should be eliminated or minimized.

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核蒸汽发生器容器在低浓度氯离子下的应力腐蚀开裂

一艘核蒸汽发生器容器由100毫米厚的SA302 B级钢建造，发现有小泄漏。泄漏源自连接过渡锥与上壳体的周向封闭焊缝。焊缝采用埋弧焊法从外部制造，并附有衬条。背衬被凿掉，用E8018-C3电极通过屏蔽金属电弧工艺从内部完成焊接。通常与进行性或疲劳型故障相关的条纹，包括沙滩痕迹，可以追溯到断裂的起源，直到船内表面的凹坑。用能谱分析发现了含锌铜矿床的变色。发现点蚀是由于蒸汽发生器中的氧气控制不良和氯化物释放到蒸汽发生器中造成的。通过一系列控制裂纹扩展速率的应力腐蚀试验得出结论:在低至1ppm氯化物的恒扩展速率试验中，A302 B级钢易发生穿晶应力腐蚀。建议保持低氧和低氯化物的冷却剂环境。应消除或尽量减少溶液中的铜离子。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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ASM Failure Analysis Case Histories: Power Generating Equipment

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