Corrosion-Fatigue Cracking in an AMS 6415 Steel Aircraft Shaft

ASM Failure Analysis Case Histories: Air and Spacecraft Pub Date : 2019-06-01 DOI:10.31399/asm.fach.aero.c0046870

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Abstract

A hollow, splined alloy steel aircraft shaft (machined from an AMS 6415 steel forging – approximately the same composition as 4340 steel – then quenched and tempered to a hardness of 44.5 to 49 HRC) cracked in service after more than 10,000 h of flight time. The inner surface of the hollow shaft was exposed to hydraulic oil at temperatures of 0 to 80 deg C (30 to 180 deg F). Analysis (visual inspection, 15-30x low magnification examination, 4x light fractograph, chemical analysis, hardness testing) supported the conclusions that the shaft cracked in a region subjected to severe static radial, cyclic torsional, and cyclic bending loads. Cracking originated at corrosion pits on the smoothly finished surface and propagated as multiple small corrosion-fatigue cracks from separate nuclei. The originally noncorrosive environment (hydraulic oil) became corrosive in service because of the introduction of water into the oil. Recommendations included taking additional precautions in operation and maintenance to prevent the use of oil containing any water through filling spouts or air vents. Also, polishing to remove pitting corrosion (but staying within specified dimensional tolerances) was recommended as a standard maintenance procedure for shafts with long service lives.

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AMS 6415钢飞机轴的腐蚀疲劳裂纹

一个中空的花键合金钢飞机轴(由AMS 6415钢锻件加工-与4340钢的成分大致相同-然后调质至44.5至49hrc)在飞行时间超过10,000小时后在使用中破裂。空心轴的内表面暴露在温度为0至80℃(30至180°F)的液压油中。分析(目视检查，15-30倍低倍放大检查，4倍光断口检查，化学分析，硬度测试)支持轴在遭受严重的静态径向，循环扭转和循环弯曲载荷的区域破裂的结论。裂纹起源于光滑表面的腐蚀坑，并从单独的核中扩展成多个小的腐蚀疲劳裂纹。原本无腐蚀性的环境(液压油)在使用中由于水进入油中而具有腐蚀性。建议包括在操作和维护中采取额外的预防措施，以防止通过填充喷口或通风口使用含有任何水的油。此外，抛光以消除点蚀(但要保持在规定的尺寸公差范围内)被推荐为具有长使用寿命的轴的标准维护程序。

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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