Effect of Alloy Selection and Part Design on Stress-Corrosion Cracking of Formed Silicon Bronze in Marine-Air Atmosphere

ASM Failure Analysis Case Histories: Design Flaws Pub Date : 2019-06-01 DOI:10.31399/asm.fach.design.c0091538

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Abstract

Electrical contact-finger retainers blanked and formed from annealed copper alloy C65500 (high-silicon bronze A) failed prematurely by cracking while in service in switchgear aboard seagoing vessels. In this service they were sheltered from the weather but subject to indirect exposure to the sea air. About 50% of the contact-finger retainers failed after five to eight months of service aboard ship. Investigation (visual inspection, 250x images etched with equal parts NH4OH and H2O2, emission spectrographic analysis, and stereoscopic views) supported the conclusion that the cracking was produced by stress corrosion as the combined result of: residual forming and service stresses; the concentration of tensile stress at outer square corners of the pierced slots; and preferential corrosive attack along the grain boundaries as a result of high humidity and occasional condensation of moisture containing a fairly high concentration of chlorides (seawater typically contains about 19,000 ppm of dissolved chlorides) and traces of ammonia. Recommendations included redesign of the slots, shot-blasting the formed retainers, and changing the material to a different type of silicon bronze-copper alloy C64700.

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合金选择和零件设计对成形硅青铜在海洋-空气环境中应力腐蚀开裂的影响

由退火铜合金C65500(高硅青铜A)冲压成形的电触点-手指固定器在海船开关柜中使用时因开裂而过早失效。在这种服务中，他们可以躲避天气，但也可以间接地接触到海上的空气。大约50%的接触式手指固定器在船上服役5到8个月后就失效了。调查(目视检查、等量NH4OH和H2O2刻蚀250倍图像、发射光谱分析和立体视图)支持应力腐蚀产生裂纹的结论，这是残余成形和使用应力的综合结果;拉应力集中在穿孔槽的外方角处;由于高湿度和含有相当高浓度氯化物(海水通常含有约19,000 PPM的溶解氯化物)和微量氨的水分偶尔凝结，沿晶界优先受到腐蚀。建议包括重新设计槽，抛丸成形的保持器，并将材料更换为不同类型的硅青铜铜合金C64700。

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: Design Flaws

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