Failure of a Main Steam Line of a Power-Generating Station

ASM Failure Analysis Case Histories: Failure Modes and Mechanisms Pub Date : 2019-06-01 DOI:10.31399/asm.fach.modes.c0048846

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Abstract

A main steam pipe was found to be leaking due to a large circumferential crack in a pipe-to-fitting weld in one of two steam leads between the superheater outlet nozzles and the turbine stop valves (a line made of SA335-P22 material). The main crack surface was found to be rough, oriented about normal to the outside surface, and had a dark oxidized appearance. The cracking was found to be predominantly intergranular. Distinct shiny bands that etched slower than the remainder of the sample at the top of each individual weld bead were revealed by microscopic examination. These bands were found contain small cracks and microvoids. A mechanism of intergranular creep rupture at elevated temperature was identified as a result of a series of stress-rupture and tensile tests. It was revealed by the crack shape that cracking initiated on the pipe exterior, then propagated inward and in the circumferential direction in response to a bending moment load. It was concluded that the primary cause of failure was the occurrence of bending stresses that exceeded the stress levels predicted by design calculations and that were higher than the maximum allowable primary membrane stress.

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电站主蒸汽管路故障

由于过热器出口喷嘴和涡轮截止阀(由SA335-P22材料制成的一条线)之间的两条蒸汽引线之一的管道与配件焊缝上出现了巨大的圆周裂纹，主蒸汽管道被发现泄漏。主裂纹表面粗糙，取向与外表面垂直，呈深色氧化外观。裂纹主要是晶间裂纹。显微镜检查显示，在每个单独焊接头的顶部，有明显的闪亮带，其蚀刻速度比样品的其余部分慢。这些条带中含有细小的裂纹和微孔。通过一系列的应力-断裂和拉伸试验，确定了高温下晶间蠕变断裂的机理。裂纹形态表明，在弯矩荷载作用下，裂纹首先在管材表面萌生，然后向内和向周向扩展。结果表明，破坏的主要原因是弯曲应力的发生超出了设计计算预测的应力水平，并且高于最大允许主膜应力。

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: Failure Modes and Mechanisms

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