Premature Failure of a Turbine Blade by Thermal Fatigue Fracture

ASM Failure Analysis Case Histories: Air and Spacecraft Pub Date : 2019-06-01 DOI:10.31399/asm.fach.aero.c0046972

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Abstract

During disassembly of an engine that was to be modified, a fractured turbine blade was found. When the fracture was examined at low magnification, it was observed that a fatigue fracture had originated on the concave side of the leading edge and had progressed slightly more than halfway from the leading edge to the trailing edge on the concave surface before ultimate failure occurred in dynamic tension. Analysis (including visual inspection, SEM, and 250x/500x micrographic examination) supported the conclusions that the blades failed due to thermal fatigue. Recommendations included application of a protective coating to the blades, provided the coating was sufficiently ductile to avoid cracking during operation to prevent surface oxidation. Such a coating would also alleviate thermal differentials, provided the thermal conductivity of the coating exceeded that of the base metal. It was also determined that directionally solidified blades could minimize thermal fatigue cracking by eliminating intersection of grain boundaries with the surface. However, this improvement would be more costly than applying a protective coating.

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涡轮叶片热疲劳断裂的过早失效

在拆卸要改装的发动机时，发现了一个断裂的涡轮叶片。当在低倍镜下观察断口时，可以观察到疲劳断口起源于前缘凹面，并在凹面上从前缘向尾缘推进了一半多一点，然后在动张力下发生了最终破坏。分析(包括目视检查、扫描电镜和250倍/500倍显微检查)支持叶片因热疲劳而失效的结论。建议包括在叶片上应用保护涂层，前提是涂层具有足够的韧性，以避免在操作过程中开裂，防止表面氧化。如果涂层的导热系数超过母材的导热系数，这种涂层还可以减轻热差。通过消除晶界与表面的交集，定向凝固叶片可以最大限度地减少热疲劳裂纹。然而，这种改进将比应用保护涂层更昂贵。

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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