Forming Process Anomalies in Diesel Fuel Injection Control Sleeve

ASM Failure Analysis Case Histories: Automobiles and Trucks Pub Date : 2019-06-01 DOI:10.31399/asm.fach.auto.c0089258

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Abstract

The cold start advance solenoid sleeve was found leaking through the wall during troubleshooting complain of a diesel engine that failed to start in cold weather. The component was revealed to be a tubular product with a “bulb” section at one end and threads on the other. The manufacturing method used to create the bulb shape was hydroforming, using a 300 series stainless steel tube in the full-hard condition. The leak was attributed to a crack in the sleeve in the radius between the bulb area and the cylindrical portion of the sleeve. Fatigue cracks initiated at multiple sites near the OD of the sleeve were revealed by scanning electron microscopy of the broken-open crack. It was revealed by analysis that during the hydroforming process, heavy biaxial strains were imparted to the sleeve wall. It was interpreted that when combined with the heavy strains inherently present in the full-hard 300 series stainless steel, the hydroforming strains in the radius caused the microcracking. The root cause for this failure was identified to be omission of an intermediate stress relief or annealing treatment prior to hydroforming to the final shape.

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柴油机燃油喷射控制套成形过程异常

在对柴油机冷启动失败的故障排查过程中，发现冷启动提前螺线管套管漏壁。该组件显示为管状产品，一端有“灯泡”部分，另一端有螺纹。制造灯泡形状的方法是液压成形，在全硬条件下使用300系列不锈钢管。泄漏是由于在套管的灯泡区域和套管的圆柱形部分之间的半径裂缝。扫描电镜显示，在套管外径附近的多个位置产生了疲劳裂纹。分析表明，在高压成形过程中，套筒壁受到了较大的双轴应变。结果表明，当与全硬300系列不锈钢固有的重应变相结合时，半径内的高压成形应变导致微开裂。该故障的根本原因被确定为遗漏了中间应力消除或在液压成形到最终形状之前的退火处理。

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: Automobiles and Trucks

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