Fatigue Fracture of a Cold-Straightened Aluminum Alloy Propeller Blade

ASM Failure Analysis Case Histories: Air and Spacecraft Pub Date : 2019-06-01 DOI:10.31399/asm.fach.aero.c0046217

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Abstract

An aluminum alloy propeller blade that had been cold straightened to correct deformation incurred in service fractured soon after being returned to service. Visual examination revealed that crack initiation occurred at the top surface in an area containing numerous surface pits. Macroscopic appearance of the surface was of brittle fracture. X-ray stress analysis did not detect any residual stress in the top surface of the propeller blade adjacent to the fracture. However, a spanwise tensile stress of approximately 51 MPa (7.4 ksi) was indicated in the same surface of the unfailed mating blade at the location of the initial bend. Evidence found supports the conclusions that the residual stress probably originated with straightening, and the apparent absence of stress in the fractured blade was the result of relaxation through fracture. Because no prior crack damage could be attributed to the initial deformation or to straightening, rapid fracture may have been induced by residual stresses contributing to the normal spectrum of cyclic stresses. Recommendations included stress-relief annealing after cold straightening, refinishing of the surface, thus reducing fracturing of propeller blades that were cold straightened to correct deformation experienced in service.

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冷矫直铝合金螺旋桨叶片疲劳断裂

铝合金螺旋桨叶片在使用过程中进行冷矫直以纠正变形，但在恢复使用后不久就发生了断裂。目视检查显示，裂纹萌生发生在含有许多表面凹坑的区域的顶部表面。表面宏观形貌为脆性断裂。x射线应力分析未检测到靠近断口的螺旋桨叶片顶面有残余应力。然而，在未失效的配合叶片的同一表面上，在初始弯曲的位置显示了大约51 MPa (7.4 ksi)的展向拉伸应力。发现的证据支持以下结论:残余应力可能源于矫直，而断裂叶片中明显没有应力是断裂松弛的结果。由于最初的变形或矫直没有导致先前的裂纹损伤，因此快速断裂可能是由循环应力法向谱的残余应力引起的。建议包括冷矫直后的应力消除退火，表面抛光，从而减少螺旋桨叶片在冷矫直后的破裂，以纠正在使用中经历的变形。

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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