Turbine Blade Failure

ASM Failure Analysis Case Histories: Power Generating Equipment Pub Date : 2019-06-01 DOI:10.31399/asm.fach.power.c9001412

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引用次数: 1

Abstract

Three blades from 45,000 kW, 3,000 rpm turbine were received for examination, comprising the root of blade 28, blade 89 showing a crack in one of the root teeth, and blade 106 which was free from defects. Microscopic examination of the blade material showed it to be a ferritic stainless steel of the type commonly used for turbine blades. A number of non-metallic inclusions were present which had been drawn into threads in rolling; these appeared to consist largely of duplex silicates. The failure of blade 28 was the result of the development of a creeping crack. Magnetic crack examination of blade 89 revealed a crack in a tooth in an identical position to the start of the crack in blade 28 but on the opposite, i.e., steam inlet, side of the blade. Similar examination of blade 106 did not reveal any cracks. Cracking was associated with unsatisfactory bedding of the blade teeth on the faces of the wheel grooves. It was concluded that the blade failures were due primarily to over-loading of the individual blade teeth due to incorrect fitting in the wheel. Vibration was an important contributory factor, as it resulted in the imposition of fluctuating stresses on the overloaded teeth. Non-metallic inclusions in the blade material playing a minor part.

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涡轮叶片失效

来自45,000 kW, 3,000 rpm涡轮机的三片叶片被接受检查，包括叶片28的根部，叶片89在一个根齿上显示裂纹，叶片106没有缺陷。叶片材料的显微检查表明它是一种铁素体不锈钢，通常用于涡轮叶片。存在一些非金属夹杂物，这些夹杂物是在轧制过程中被拉入螺纹中的;这些似乎主要由双相硅酸盐组成。28号叶片的失效是蠕变裂纹发展的结果。对叶片89进行磁力裂纹检查，发现叶片28裂纹开始的位置相同，但在相反的位置，即叶片的蒸汽入口一侧，齿上有裂纹。对106号叶片进行类似检查，未发现任何裂纹。裂纹与轮槽表面叶片齿的不满意的层理有关。得出的结论是，叶片失效的主要原因是由于不正确的安装在车轮上的单个叶片齿的过载。振动是一个重要的促成因素，因为它导致施加波动应力对超载的牙齿。非金属夹杂物在叶片材料中起次要作用。

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: Power Generating Equipment

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