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3-D FINITE ELEMENT ANALYSIS OF THE EFFECT OF WELDING RESIDUAL STRESS ON HYDROGEN DIFFUSION IN HYDROGEN CONTAINED ENVIRONMENT 被引量:5

3-D FINITE ELEMENT ANALYSIS OF THE EFFECT OF WELDING RESIDUAL STRESS ON HYDROGEN DIFFUSION IN HYDROGEN CONTAINED ENVIRONMENT
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摘要 The hydrogen distribution of 16MnR steel weldment in hydrogen contained environment was calculated using the finite element method ( FEM). The effect of welding residual stress on hydrogen diffusion has been discussed using a 3-D sequential coupling finite element analysis procedure complied by Abaqus code. The hydrogen diffusion coefficient in weld metal, the heat affected zone (HAZ), and the base metal of the 16MnR steel weldment were measured using the electrochemical permeation technique. The hydrogen diffusion without the effect of stress was also calculated and compared. Owing to the existence of welding residual stress, the hydrogen concentration was obviously increased and the hydrogen wouM diffuse and accumulate in the higher stress region. The hydrogen distribution of 16MnR steel weldment in hydrogen contained environment was calculated using the finite element method ( FEM). The effect of welding residual stress on hydrogen diffusion has been discussed using a 3-D sequential coupling finite element analysis procedure complied by Abaqus code. The hydrogen diffusion coefficient in weld metal, the heat affected zone (HAZ), and the base metal of the 16MnR steel weldment were measured using the electrochemical permeation technique. The hydrogen diffusion without the effect of stress was also calculated and compared. Owing to the existence of welding residual stress, the hydrogen concentration was obviously increased and the hydrogen wouM diffuse and accumulate in the higher stress region.
出处 《Acta Metallurgica Sinica(English Letters)》 SCIE EI CAS CSCD 2007年第5期347-354,共8页 金属学报(英文版)
关键词 16MnR steel hydrogen diffusion welding residual stress finite element analysis 16MnR steel hydrogen diffusion welding residual stress finite element analysis
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  • 1X.H. Zhang,P.Y. Chen,and C.Y. Tan. Transactions of the China Welding Institution . 2002
  • 2Y.J. Li,J. Wang,and J.C. Feng. Journal of Materials Processing Technology . 2005
  • 3A.G. Varias,and A.R. Massih. Journal of Nuclear Materials . 2000
  • 4A.H. Krom,M. Bakker,and A. Koers. International Journal of Pressure Vessel and Piping . 1997
  • 5M. Rogante,P.Battistella,and F. Cesari. International Journal of Hydrogen Energy . 2006
  • 6R.A. Carneiro,and R.C. Ratnapuli. Materials Science and Engineering . 2003
  • 7R.K. Pandey. Engineering Failure Analysis . 2005
  • 8C.Y. Tan,X.H. Zhang,P.Y. Chen,and W. Jiao. Transactions of the China Welding Institution . 2002
  • 9M.J. Danielson. Corrosion Science . 2002
  • 10W.C. Jiang,J.M. Gong,J.Q. Tang,H. Chen,,and S.D. Tu. Acta Metallurgica Sinica . 2006

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