Study on residual stress in socket weld by numerical simulation and experiment

Wang H.; Jing H. Y.; Zhao L.; Han Y. D.; Xu L. Y.

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Study on residual stress in socket weld by numerical simulation and experiment

机译：承插焊缝残余应力的数值模拟与实验研究

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In this paper, welding residual stress in socket weld of 304L stainless steel pipe was investigated using numerical simulation and validated by X-ray stress measurement. From the simulation results, the maximum tensile residual stresses were located at weld root and weld toe on both sides of the weld along pipe, which led to the fatigue failure. Pre-bevelling and low transformation temperature (LTT) dressing could decrease tensile residual stress both in hoop and axial direction at weld root and weld toe. After LTT dressing, compressive residual stress was generated throughout weld toe. Compressive stress can delay fatigue crack initiation and propagation. Therefore, pre-bevelling and LTT dressing can improve the fatigue life of socket weld.

机译：本文利用数值模拟方法研究了304L不锈钢管承插焊中的焊接残余应力，并通过X射线应力测量对其进行了验证。根据仿真结果，最大拉伸残余应力位于沿管道的焊缝两侧的焊缝根部和焊趾处，从而导致疲劳破坏。预坡口和低相变温度（LTT）修整可以降低焊缝根部和焊趾在环向和轴向的拉伸残余应力。 LTT修整后，整个焊趾产生压缩残余应力。压应力会延迟疲劳裂纹的产生和传播。因此，预坡口和LTT修整可以提高承插焊的疲劳寿命。

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《Science and Technology of Welding and Joining》 |2016年第6期|共11页
作者
Wang H.; Jing H. Y.; Zhao L.; Han Y. D.; Xu L. Y.;
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正文语种 eng
中图分类焊接、金属切割及金属粘接;
关键词
Socket weld; Low transformation temperature welding wire; Residual stress; Numerical simulation; Fatigue strength;

机译：承插焊;低转变温度焊丝;残余应力;数值模拟;疲劳强度;

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专利

1. Study on residual stress in socket weld by numerical simulation and experiment [J] . Wang H., Jing H. Y., Zhao L., Science and Technology of Welding and Joining . 2016,第6期

机译：承插焊缝残余应力的数值模拟与实验研究
2. Investigation of welding residual stress in flash-butt joint of U71Mn rail steel by numerical simulation and experiment [J] . Ninshu Ma, Zhipeng Cai, Hui Huang, Materials & design . 2015,第DECa25期

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3. Numerical Simulation to Study the Effect of Arc Travelling Speed and Welding Sequences on Residual Stresses in Welded Sections of New Ferritic P92 Pipes [J] . Xiaowei Wang, Jianming Gong, Yanping Zhao, High temperature materials and processes . 2016,第2期

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4. Study of the material properties of thin pipe butt welds (in c-Mn and stainless steel) on the welding residual stress distribution by using numerical simulation [C] . J. J. Janosch, D. Lawrjaniec ASME pressure vessels and piping conference . 1999

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5. Finite Element Simulation of Fillet Welds: Influence of Weld Contact Angle and Metallurgical Phase Changes on Residual Stresses [D] . Zhang, Chao. 2014

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6. Experimental and Numerical Simulation to Study the Reduction of Welding Residual Stress by Ultrasonic Impact Treatment [O] . Jianfei Chen, Jingyu Chu, Wenchun Jiang, 2020

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7. Numerical Simulation to Study the Influence of Welding Sequence on Distortion and Residual Stresses of Butt-Welded Plates [O] . Merna El-shrief, Mohamed Saber, Ahmed Nassef, 2016

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Study on residual stress in socket weld by numerical simulation and experiment

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