Fractured Piston Rod of Drop Forge Hammers

ASM Failure Analysis Case Histories: Machine Tools and Manufacturing Equipment Pub Date : 2019-06-01 DOI:10.31399/asm.fach.machtools.c9001154

F. Naumann, F. Spies

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Abstract

The cause of fracture of two piston rods of hammers of a drop forge was determined. The first rod of 180 mm diam consisted of an unalloyed steel with 0.37% C and 0.67% Mn and had a strength of 56 kp/sq mm at 26% elongation. Fatigue fractures propagated from several points which could be recognized as flaky cracks already in the fracture, and which later were united. No material defects could be detected in the cross section parallel to the fracture plane except for these very short cracks. These comparatively insignificant defects were sufficient to cause the fracture during high impact fatigue stresses in the drop forge. The second piston rod of 120 mm diam consisted of a steel with 0.25% C and 1.00% Mn. It allegedly had 57 kp/sq mm tensile strength and 26% elongation. The basic structure of the 120 mm piston rod was ferritic-pearlitic and hardness of 155 Brinell was accordingly low, corresponding to approximately 53 kp/sq mm tensile strength. The incipient fractures had no connection with the material defects in this shaft and therefore the fracture could not have been caused by them. Probably the low strength of the piston rod was insufficient for the high stresses.

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落锤活塞杆断裂

分析了某滴锻锤头两根活塞杆断裂的原因。第一个棒材直径为180 mm，由含0.37% C和0.67% Mn的非合金钢组成，伸长率为26%，强度为56 kp/sq mm。疲劳断裂从几个点开始扩展，这些点可以识别为断口中已经存在的片状裂纹，后来这些裂纹被合并。除了这些非常短的裂纹外，在平行于断裂面的横截面上没有检测到任何材料缺陷。在高冲击疲劳应力下，这些相对微不足道的缺陷足以导致铸件断裂。第二个活塞杆直径为120 mm，由含0.25% C和1.00% Mn的钢组成。据称其抗拉强度为57 kp/sq mm，伸长率为26%。120mm活塞杆的基本结构为铁素体-珠光体，因此155布氏硬度较低，对应的抗拉强度约为53 kp/sq mm。初期断裂与该井的材料缺陷无关，因此断裂不可能是由材料缺陷引起的。可能是活塞杆的低强度不足以承受高应力。

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: Machine Tools and Manufacturing Equipment

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