论文信息 - FEM prediction of welding residual stresses in a SUS304 girth-welded pipe with emphasis on stress distribution near weld start/end location

FEM prediction of welding residual stresses in a SUS304 girth-welded pipe with emphasis on stress distribution near weld start/end location

A finite element approach based on Quick Welder software is developed to simulate welding temperature field and welding residual stress distribution in a 3D multi-pass girth-welded pipe model. The characteristics of welding residual stress distributions in a SUS304 stainless steel pipe induced by heating with a tungsten inert gas arc welding torch are investigated numerically. Meanwhile, an emphasis is focused on examining the welding residual stress distributions in and near the weld start/end location. Moreover, the residual stresses predicted by the present computational approach are compared with the measured data; and the comparison suggests that the numerical simulation method has basically captured the feature of welding residual stress distribution near the weld start/end region. The numerical simulation results show that both the hoop and the axial residual stresses near the weld start/end region have sharp gradients and are significantly different from those in the steady range.

Shoichi Kiyoshima | Dean Deng | D. Deng | Shoichi Kiyoshima | S. Kiyoshima

[1] Thomas H. Hyde,et al. Residual stress simulation in thin and thick-walled stainless steel pipe welds including pipe diameter effects , 2006 .

[2] F. W. Brust,et al. Modeling distortion and residual stress during welding: practical applications , 2005 .

[3] Dieter Radaj,et al. Heat effects of welding , 1992 .

[4] B. L. Josefson,et al. A parametric study of residual stresses in multi-pass butt-welded stainless steel pipes , 1998 .

[5] Shoichi Kiyoshima,et al. Prediction of residual stresses in a dissimilar metal welded pipe with considering cladding, buttering and post weld heat treatment , 2009 .

[6] Zhili Feng. Processes and mechanisms of welding residual stress and distortion , 2005 .

[7] Miguel Cervera,et al. Finite element modeling of multi-pass welding and shaped metal deposition processes , 2010 .

[8] Hidekazu Murakawa,et al. Numerical simulation of temperature field and residual stress in multi-pass welds in stainless steel pipe and comparison with experimental measurements , 2006 .

[9] Pingsha Dong,et al. Analysis of residual stresses at weld repairs , 2005 .

[10] Hisashi Serizawa,et al. Actual application of FEM to analysis of large scale mechanical problems in welding , 2007 .

[11] Kyong-Ho Chang,et al. Three-dimensional finite element simulation of residual stresses in circumferential welds of steel pipe including pipe diameter effects , 2008 .