Study of analysis method to predict creep life of 2.25Cr-1Mo steel from welding conditions

IF 2.4 4区 材料科学 Q2 METALLURGY & METALLURGICAL ENGINEERING
Daisuke Abe, Keisuke Torigata, Hitoshi Izuno, Masahiko Demura
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Abstract

The creep rupture life of weld joints decreases to values from half to one-tenth of that of the base metal in Cr–Mo heat-resistant steels. It is industrially very important to understand the creep performance of weld joints and to minimize the reduction in the creep performance of weld joints relative to the base metal. In this study, a consistent prediction computational workflow was developed for practical three-layer cladding welds that connect two modules. These are the weld heat transfer analysis module, which predicts the heat-affected zone (HAZ) shape from welding conditions, and the creep damage analysis module, which calculates the creep rupture life from the predicted shape of the HAZ. Using this workflow, we examined the effects of welding conditions on creep rupture life of 2.25Cr-1Mo steel. Welding conditions were selected on the basis of the design of experiment method, and the correlation between each factor and creep rupture life was evaluated by factorial effect analysis. The results clarify that the creep rupture life changed significantly depending on the control of welding heat input under conditions that simulate practical welding. This suggests that there is an appropriate welding heat input to bring the creep rupture life of weld joints close to that of the base metal. Although previous studies of creep rupture life with relatively simple HAZ geometries have indicated the correlation with the width and angle of HAZ, it was newly discovered that these indices cannot simply explain the creep rupture life of the weld joints with complex HAZ geometries that appear in practical welding. The effect of HAZ shape on creep rupture life is more complicated than previously reported, suggesting that more appropriate HAZ shape factors should be considered.

从焊接条件预测 2.25Cr-1Mo 钢蠕变寿命的分析方法研究
摘要 在铬钼耐热钢中,焊点的蠕变断裂寿命降至母材的一半至十分之一。了解焊点的蠕变性能并最大限度地降低焊点相对于母材的蠕变性能在工业上非常重要。在这项研究中,针对实用的三层堆焊焊缝开发了一个连贯的预测计算工作流程,该流程连接了两个模块。这两个模块分别是焊接传热分析模块和蠕变损伤分析模块,前者根据焊接条件预测热影响区(HAZ)形状,后者根据预测的热影响区形状计算蠕变断裂寿命。利用这一工作流程,我们研究了焊接条件对 2.25Cr-1Mo 钢蠕变断裂寿命的影响。根据实验设计法选择了焊接条件,并通过因子效应分析评估了各因素与蠕变断裂寿命之间的相关性。结果表明,在模拟实际焊接的条件下,蠕变断裂寿命随焊接热输入的控制而发生显著变化。这表明,要使焊点的蠕变断裂寿命接近母材的蠕变断裂寿命,需要适当的焊接热输入。虽然以往对相对简单的热影响区几何形状的蠕变断裂寿命研究表明,蠕变断裂寿命与热影响区的宽度和角度有关,但新发现这些指标不能简单地解释实际焊接中出现的具有复杂热影响区几何形状的焊点的蠕变断裂寿命。HAZ 形状对蠕变断裂寿命的影响比之前报道的更为复杂,这表明应考虑更合适的 HAZ 形状因素。
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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来源期刊
Welding in the World
Welding in the World METALLURGY & METALLURGICAL ENGINEERING-
CiteScore
4.20
自引率
14.30%
发文量
181
审稿时长
6-12 weeks
期刊介绍: The journal Welding in the World publishes authoritative papers on every aspect of materials joining, including welding, brazing, soldering, cutting, thermal spraying and allied joining and fabrication techniques.
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