Fatigue Failure of an Aluminum Alloy Assembly at Spot Welds Because of Improper Heat Treatment

ASM Failure Analysis Case Histories: Air and Spacecraft Pub Date : 2019-06-01 DOI:10.31399/asm.fach.aero.c0047072

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Abstract

Postflight inspection of a gas-turbine aircraft engine that had experienced compressor stall revealed that the engine air-intake bullet assembly had dislodged and was seated against the engine-inlet guide vanes at the 3 o'clock position. The bullet assembly consisted of an outer aerodynamic shell and an inner stiffener shell, both of 1.3 mm (0.050 in.) thick aluminum alloy 6061-T6, and four attachment clips of 1 mm (0.040 in.) thick alclad aluminum alloy 2024-T42. Each clip was joined to the outer shell by 12 spot welds and was also joined to the stiffener. Analysis (visual inspection, dye-penetrant inspection, and 10x/150x micrographs of sections etched with Keller's reagent) supports the conclusion that the outer shell of the bullet assembly separated from the stiffener because the four attachment clips fractured through the shell-to-clip spot welds. Fracture occurred by fatigue that initiated at the notch created by the intersection of the faying surfaces of the clip and shell with the spot weld nuggets. The 6061 aluminum alloy shell and stiffener were in the annealed (O) temper rather than T6, as specified. Recommendations included heat treating the shell and stiffener to the T6 temper after forming.

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铝合金点焊件热处理不当导致的疲劳失效

对一台经历过压气机失速的燃气涡轮飞机发动机的飞行后检查发现，发动机进气子弹组件已经脱落，并在发动机进气导叶的3点钟位置上。子弹组件包括一个外部气动外壳和一个内部加强壳，都是1.3毫米(0.050英寸)厚的6061-T6铝合金，以及四个1毫米(0.040英寸)厚的2024-T42铝合金附件夹。每个夹子通过12个点焊连接到外壳上，也连接到加强筋上。分析(目视检查、染料渗透检查和凯勒试剂蚀刻的10倍/150倍显微照片)支持这样的结论，即子弹组件的外壳与加强板分离，因为四个附件夹在壳与夹的点焊中断裂。断裂是由疲劳引起的，这种疲劳是由夹件和壳体表面与点焊块的交叉处产生的缺口引起的。6061铝合金外壳和加强筋采用退火(O)回火，而不是按照规定采用T6回火。建议包括热处理外壳和加强板到T6回火成形后。

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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