The effect of mechanical heterogeneity and limit load of a weld joint with longitudinal weld crack on the J-integral and failure assessment curve

摘要

According to the CEGB R6 (Rev.3) approach, the influence of strength mis-matching and the limitload of a weld joint with a longitudinal weld crack on the J-integral and failure assessment curve canbe studied by using an elastic-plastic finite element method for Center-Cracked Panel (CCP)specimens. The results indicate that the values of the J-integral and the shapes and positions of thefailure assessment curves are greatly affected by the strength mis-matching factor M, a ratio of weldmetal yield strength to that of base metal. If the limit load of the base metal is adopted to normalize theapplied load, then the greater the value of M, the larger the safe area is in the failure assessment curve(FAC). However, if the limit load of the weld metal is adopted to normalize the applied load, then thegreater the value of M, the smaller the safe area is. Therefore, for the undermatched andevenmatched joints, it is safer to choose the limit load of the base metal as the normalized load, andfor the overmatched joints, it is safer to choose the limit load of the weld metal as the normalized load.Moreover, when M is less than 0.8 for the former situation, the option 1 curve of the R6 is not aconservative assessment curve. Considering that there is no simple theoretical formula which issuitable for calculating the limit load of a mechanical heterogeneous weld joint under plane stress anda variety of crack geometries, it is recommended that no matter what the strength of the overmatchedor undermatched weld joint is, it is safer to use the limit load of that metal which has the higherstrength grade of base metal and weld metal as the normalized load.