Failure of High-Temperature Rotary Valve Due to Expansion and Distortion Caused by the Effects of Excessive Operating Temperature

ASM Failure Analysis Case Histories: Improper Maintenance, Repair, and Operating Conditions Pub Date : 2019-06-01 DOI:10.31399/asm.fach.usage.c0047343

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Abstract

An experimental high-temperature rotary valve was found stuck due to growth and distortion after approximately 100 h. Gas temperatures were suspected to have been high due to overfueled conditions. Both the rotor and housing in which it was stuck were annealed ferritic ductile iron similar to ASTM A395. Visual examination of the rotor revealed unusually heavy oxidation and thermal fatigue cracking along the edge of the gas passage. Material properties, including microstructure, composition, and hardness, of both the rotor and housing were evaluated to determine the cause of failure. The microstructure of the rotor was examined in three regions. The shaft material, the heavy section next to the gas passage and the thin edge of the rotor adjacent to the gas passage. The excessive gas temperatures were responsible for the expansion and distortion that prevented rotation of the rotor. Actual operating temperatures exceeded those intended for this application. The presence of transformation products in the brake-rotor edge indicated that the lower critical temperature had been exceeded during operation.

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高温旋转阀在工作温度过高的影响下发生膨胀和变形而失效

实验高温旋转阀在大约100小时后被发现由于生长和变形而卡住，怀疑由于燃料过量导致气体温度过高。转子和外壳，其中它被卡住是退火铁素体球墨铸铁类似于ASTM A395。对转子的目视检查显示，沿气体通道边缘有异常严重的氧化和热疲劳裂纹。评估了转子和外壳的材料性能，包括微观结构、成分和硬度，以确定故障原因。对转子的微观组织进行了三个区域的检测。轴材料，靠近气体通道的重截面和靠近气体通道的转子的薄边缘。过高的气体温度导致膨胀和扭曲，阻止了转子的旋转。实际工作温度超过了该应用程序的预期温度。制动转子边缘存在相变产物，表明在运行过程中已经超过了较低的临界温度。

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: Improper Maintenance, Repair, and Operating Conditions

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