Wear Failure of a Fuel-Pump Drive Shaft Caused by the Presence of Sand, Metallic Particles, and Vibration

ASM Failure Analysis Case Histories: Air and Spacecraft Pub Date : 2019-06-01 DOI:10.31399/asm.fach.aero.c0047793

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Abstract

Failure of a case hardened steel shaft incorporated fuel pump in a turbine-powered aircraft resulted in damage to the aircraft. The disassembled pump was found to be dry and free of any contamination. Damage was exhibited on the pressure side of each spline tooth in the impeller and the relatively smooth cavities and undercutting of the flank on this side indicated that the damage was caused by an erosion or abrasion mechanism. A relatively smooth worn area was formed at the center of each tooth due to an abrasive action and an undulating outline with undercutting was observed on the damaged side. Particles of sand, paint, or plastic, fibers from the cartridge, brass, and steel were viewed in the brown residue on the filter cartridge under a low power microscope and later confirmed by chemical analysis. Large amount of iron was identified by application of a magnet. It was concluded that the combined effect of vibration and abrasive wear by sand and metal particles removed from the splines damaged the shaft. Case hardened spline teeth surface was recommended to increase resistance to wear and abrasion.

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砂粒、金属颗粒和振动引起的燃油泵传动轴磨损失效

某涡轮动力飞机壳体硬化钢轴合并燃油泵故障导致飞机损坏。拆卸后的泵被发现是干燥的，没有任何污染。叶轮中每个花键齿的压力侧都出现了损伤，该侧相对光滑的空腔和侧翼的下切表明损伤是由侵蚀或磨损机制引起的。由于磨蚀作用，在每颗牙齿的中心形成一个相对光滑的磨损区域，并且在损坏的一侧观察到具有下切的起伏轮廓。在低倍显微镜下观察滤芯上棕色残留物中的沙子、油漆或塑料、纤维、黄铜和钢的颗粒，然后通过化学分析加以证实。大量的铁是用磁铁识别出来的。结果表明，振动和磨料磨损的共同作用是造成轴损坏的主要原因。建议采用硬化样条齿面，以增加耐磨性。

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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