SCC of 300M Steel Jackscrew Drive Pins

ASM Failure Analysis Case Histories: Air and Spacecraft Pub Date : 2019-06-01 DOI:10.31399/asm.fach.aero.c0048665

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Abstract

The jackscrew drive pins on a landing-gear bogie failed when the other bogie on the same side of the airplane was kneeled for tire change. The pins, made of 300M steel, were shot peened and chromium plated on the outside surface and were cadmium plated and painted with polyurethane on the inside surface. The top of the jackscrew was 6150 steel. Both ends of the pins were revealed to be dented where the jackscrew had pressed into them and were observed to have been resulted due to overdriving the jackscrew at the end of an unkneeling cycle. These dented areas were found to be heavily corroded with chromium plating missing. A heavily corroded intergranular fracture mode was revealed by chromium-carbon replicas of the areas of fracture origin. Deep corrosion pits adjacent to the fracture origins and directly beneath cracks in the chromium plate were revealed by metallographic examination. It was concluded that stress-corrosion cracks grew out from the rust pits. The pin material was changed from 300M steel to PH 13-8 Mo stainless steel, which is highly resistant to rusting and SCC and the jacking control system was modified to prevent overdriving.

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300M钢千斤顶驱动销的SCC

当飞机同一侧的另一个转向架下跪换轮胎时，起落架转向架上的千斤顶驱动销失效了。引脚采用300M钢，外表面喷丸镀铬，内表面镀镉，涂聚氨酯。千斤顶的顶部是6150钢。销的两端在千斤顶压入销的地方出现了凹痕，这是由于在非跪式循环结束时，千斤顶过度驱动造成的。这些凹陷的地方被发现严重腐蚀，镀铬缺失。断裂起源区域的铬碳复制品显示出严重腐蚀的晶间断裂模式。金相检查发现，在铬板断口附近和裂纹正下方有深腐蚀坑。结果表明，应力腐蚀裂纹是从锈坑中产生的。引脚材料从300M钢改为PH值为13-8 Mo的不锈钢，这种不锈钢具有很强的抗锈蚀和SCC能力，并且对千斤顶控制系统进行了改进，以防止超速行驶。

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: Air and Spacecraft

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