Fatigue Cracking of 4340 Steel Compressor Shafts Because of Cyclic Stresses Induced by Gear-Type Couplings

ASM Failure Analysis Case Histories: Improper Maintenance, Repair, and Operating Conditions Pub Date : 2019-06-01 DOI:10.31399/asm.fach.usage.c0047823

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Abstract

High-horsepower electric motors were utilized to drive large compressors (made of 4340 steel shafts and gear-type couplings) required in a manufacturing process. The load was transmitted by two keys 180 deg apart. Six of the eight compressor shafts were found cracked in a keyway and one of them fractured after a few months of operation. Visual examination of fractured shaft revealed that the cracks originated from one of the keyways and propagated circumferentially around the shaft. The shaft and coupling slippage was indicated by the upset keys and this type of fracture. The shaft surface both near and in the keyways indicated fretting which greatly reduced the fatigue limit of the shaft metal and initiated fatigue cracks. Fatigue marks were observed on the fractured key. Repetitive impact loading was responsible for propagation of the cracks. The high cyclic bending stresses were caused by misalignment between the electric motor and compressor and were transmitted to the shaft through the geared coupling. Flexible-disk couplings capable of transmitting the required horsepower were installed on the shafts as a corrective measure.

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齿轮式联轴器引起的循环应力导致4340钢压气机轴的疲劳开裂

利用大功率电动机驱动制造过程中所需的大型压缩机(由4340钢轴和齿轮式联轴器制成)。载荷由两个相距180度的键传递。8根压气机轴中有6根在键槽处断裂，其中一根在运行几个月后断裂。对断裂轴的目视检查表明，裂纹起源于其中一个键槽，并沿轴周向扩展。轴和联轴器的滑移由打乱键和这种类型的断裂表示。键槽附近和键槽内的轴表面都存在微动，这大大降低了轴金属的疲劳极限，并引发了疲劳裂纹。在断裂的钥匙上观察到疲劳痕迹。重复冲击载荷是裂纹扩展的主要原因。高循环弯曲应力是由电动机与压缩机对中引起的，并通过齿轮联轴器传递到轴上。作为一种纠正措施，在轴上安装了能够传输所需马力的柔性盘联轴器。

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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