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双平板封头结构的焊接残余应力有限元模拟 被引量:2

Finite Element Simulation of Welding Residual Stress of Double - layer Flat Head Structure
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摘要 双平板封头结构最常见的问题是面板与工艺接管焊接部位开裂引起泄漏,而焊接残余应力是重要的影响因素之一。基于ANSYS软件中的APDL语言、单元生死技术以及热-结构间接耦合法对双平板封头结构焊接温度场、应力场进行了数值模拟,获得了焊接残余应力的大小与分布规律。计算结果表明:在焊缝区环向应力水平较高,易诱使焊缝开裂失效;在焊缝附近区域产生了较大压应力,主要是由于焊缝区材料受热向外膨胀而产生。模拟结果为焊接残余应力评定、控制焊接残余应力提供了理论依据,并对提高双平板封头结构的可靠性和安全性具有重要意义。 The key problem of double - layer flat head structure is the leakage induced by the crack in the welding position between the panel and the nozzle. Welding residual stress is one of the main influential factors. In this work, numerical simulation on welding temperature field and thermal stress of double - lay- er flat head structure was carried out based on APDL of ANSYS software, element birth and death technol- ogy and thermal - mechanical coupling method, and the distribution law of welding residual stress was found out. The simulation results indicate that the hoop stress is much larger at the welding zone, which easily induces the cracking and leakage sometimes. The compressive stress is very high near the welding zone, and it is mainly caused by the expansion of heating welding material. The analysis from calculation results provides some theory references for evaluating and controlling the welding residual stress. It is of great significance for increasing the reliability and safety of double - layer flat head structure.
作者 徐君臣 王泽武 银建中
机构地区 大连理工大学化工机械学院 惠生工程(中国)有限公司
出处 《压力容器》 2013年第9期31-38,共8页 Pressure Vessel Technology
关键词 双平板封头 焊接残余应力 有限元 单元生死技术 double - layer flat head welding residual stress finite element element birth and death technology
分类号 TH123 [机械工程—机械设计及理论] O241.82 [理学—计算数学]
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二级参考文献39

共引文献64

同被引文献28

  • 1刘芸,王燕,王薇.焊接残余应力对加强型节点力学性能影响研究[J].建筑钢结构进展,2013,15(1):37-44. 被引量:6
  • 2陈重毅,麻永林,王文君,邢淑清,路恒昌.焊接工艺对30mm厚Q690钢板焊接残余应力的影响[J].材料热处理学报,2015,36(6):93-98. 被引量:10
  • 3Lindgren L-E.Numerical modelling of welding[J].Computer Methods in Appllied Mechancis and Engineering,2006,195(48):6710-6736.
  • 4Rudland D,Wilkowski G,Wang YY,et al.Development of circumferential through-wall crack K-solutions for control rod drive mechanism nozzles[J].International Journal of Pressure Vessels and Piping,2004,81(12):961-971.
  • 5Ueda Y,Nakacho K.Simplifying methods for analysis of transient and residual stresses and deformations due to multipass welding[J].Transactions of Japan Welding Research Institute,1982,11(1):95-103.
  • 6Zhang J M,Dong P S,Brust F W,et al.Modeling of weld residual stresses in core shroud structures[J].Nuclear Engineering and Design,2000,195(2):171-187.
  • 7Keppas L K,Wimpory R C,Katsareas D E,et al.Combination of simulation and experiment in designing repair weld strategies:A feasibility study[J].Nuclear Engineering and Design,2010,240(10):2897-2906.
  • 8Shim Y,Feng Z,Lee S,et al.Determination of residual stresses in thick-section weldments[J].Welding Journal,1992,71(9):305-312.
  • 9Muránsky O,Smith M C,Bendeich P J,et al.Validated numerical analysis of residual stresses in safety relief valve(SRV)nozzle mock-ups[J].Computational Materials Science,2011,50(7):2203-2215.
  • 10Cho R,Lee B Y,Moon Y H,et al.Investigation of residual stress and post weld heat treatment of multipass welds by finite element method and experiments.[J].Journal of Materials Processing Technology,2004,155-156:1690-1695.

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压力容器
2013年 第9期

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