Investigation of Superheated Steam Push Rod Spindles

ASM Failure Analysis Case Histories: Power Generating Equipment Pub Date : 2019-06-01 DOI:10.31399/asm.fach.power.c9001208

F. Naumann, F. Spies

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Abstract

A spindle made of hardenable 13% chromium steel X40 Cr13 (Material No. 1.4034) that was fastened to a superheated steam push rod made of high temperature structural steel 13Cr-Mo44 (Material No. 1.7335) by means of a convex fillet weld, fractured at the first operation of the rod directly next to the weld bead. Investigation showed that the fracture of the superheated steam push rod spindle was caused by hardening and hardening crack formation in the weld seams and adjoining areas. It would have been preferable to avoid welding near the cross sectional transitions altogether in consideration of the crack sensitivity of high hardenability steels. If for some reason this was not possible, then all precautions should have been taken that are applicable to the particular steel, such as preheating, slow cooling and stress relief tempering after welding. The selection of an austenitic additive material should have been considered because it could have equalized stresses due to its high elongation. Most probably, however, a material of lower hardenability should have been selected for the spindle if high operating properties were of paramount importance.

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过热蒸汽推杆主轴的研究

可淬硬13%铬钢X40 Cr13(材料号1.4034)制成的主轴，通过凸角焊固定在高温结构钢13Cr-Mo44(材料号1.7335)制成的过热蒸汽推杆上，在焊接头旁边的杆第一次操作时断裂。研究表明，过热蒸汽推杆主轴断裂是由焊缝及邻近区域的硬化和硬化裂纹形成引起的。考虑到高淬透性钢的裂纹敏感性，最好避免在截面过渡附近焊接。如果由于某种原因无法做到这一点，则应采取适用于特定钢的所有预防措施，例如焊接后的预热、慢冷却和应力消除回火。应该考虑奥氏体添加剂材料的选择，因为它的高伸长率可以使应力均匀。然而，最可能的是，如果高操作性能是最重要的，应该选择一种淬透性较低的材料作为主轴。

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: Power Generating Equipment

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