Influence of Welding Sequence on Residual Stress Evolution in SUS304/Q235 Bimetallic Clad Plate Butt-Welded Joints

Min Zhu, Yansong Zhang, Qiao Zheng, Wei Wu, Weifang Qian, Baosen Wang
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引用次数: 1

Abstract

Residual stress prediction and controlling is important for structural integrity assessment of weldments. In current work, finite element and experimental methods were integrated to study the influence of welding sequence on the SUS304/Q235 bimetallic clad plate joints during multi-layer and multi-pass welding. The results show that the peak residual stress values on flyer plate surface are weakly affected by welding sequences but the width of high surficial longitudinal stress area of joint with base layer welded first is bigger. Meanwhile, welding sequence has a great influence on the longitudinal residual stress evolution law inside joints. When base seam layer is welded first, the highest stress concentration appears in the transition layer. However, it would be transferred into the first base seam layer due to martensite phase transformation when flyer seam layer is welded first. Residual stress controlling in the bimetallic clad plate joint should attract more attention from researchers.
焊接顺序对SUS304/Q235双金属复合板对接接头残余应力演化的影响
残余应力预测与控制是焊接件结构完整性评价的重要内容。本文采用有限元和实验相结合的方法,研究了SUS304/Q235双金属复合板多层多道次焊接过程中焊接顺序对焊接接头的影响。结果表明:焊接顺序对飞片表面峰值残余应力值的影响较小,但基层先焊的接头表面高纵向应力区宽度较大;同时,焊接顺序对接头内部纵向残余应力演化规律有较大影响。当基缝层先焊接时,过渡层应力集中最大。而先焊飞翼层时,由于马氏体相变,会转移到第一基缝层。双金属复合板节点的残余应力控制是目前研究的热点。
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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