| 摘要: |
| 采用焊接过程数值模拟软件SYSWELD建立模型,以水为运行介质,对X70管道在役焊接粗晶区的热循环进行了数值模拟,探讨了介质流速、管道壁厚和焊接热输入等因素对在役焊接热循环的影响规律,并对数值模拟结果进行了验证。结果表明,在役焊接粗晶区t8/5值随着水流速度的增大而减小,但减小的幅度不大;当流速小于0.5 m/s时,t8/3和t8/1随流速的增大而大幅减小,当流速大于0.5 m/s时,t8/3和t8/1随流速增大而缓慢减小。t8/5和t8/3均随着管道壁厚的增加而先增大后减小,在壁厚为8 mm时达到最大值;t8/1随着壁厚的增加而逐渐增大。随着焊接热输入的增加,t8/5,t8/3和t8/1均增大。焊接热循环计算结果和实测结果吻合较好,相对误差小于8%。 |
| 关键词: 运行管线 在役焊接修复 焊接热循环 数值模拟 |
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| Numerical simulation of thermal cycle of in-service welding onto active pipeline based on SYSWELD |
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CHEN Yu-hua1,2, WANG Yong2
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1.School of Material Science and Engineering, Nanchang Institute of Aeronautical Technology, Nanchang 330063, China;2.College of Mechanical and Electronic Engineering, China University of Petroleum, Dongying 257061, Shandong, China
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| Abstract: |
| The software of SYSWELD was used to build model and simulate the thermal cycle of in-service welding onto active pipeline of X70 steel using water as flowing medium.Influence of flow rate, pipe wall thickness and heat input on thermal cycle of coarse grain heat-affected zone was studied and the simulation results were tested by measuring thermal cycle on experiment pipelines.The results show that t8/5 decreases when flow rate increases but the decrease amplitude is not so obvious.When flow rate is less than 0.5 m/s, t8/3 and t8/1 rapidly decrease while flow rate increases.When flow rate is greater than 0.5 m/s, t8/3 and t8/1 decrease slowly while the flow rate increases.t8/5 and t8/3 increase with the pipe wall thickness increasing and arrive at the maximum when wall thickness is 8 mm, and then decreases.But t8/1 increases when wall thickness increases from 5 mm to 12 mm.t8/5, t8/3 and t8/1 increase with heat input increasing.The simulation results of the thermal cycle agree well with the measured results and the relative error is less than 8%. |
| Key words: active pipelines repair by in-service welding welding thermal cycle numerical simulation |
