Analytical crack growth evaluation of a plate with a surface crack

The thick-shell line spring method combined with the complentary energy method has been applied to the analysis of load-displa~ment curves and crack opening angle (COA) for workhardening plates with a surface crack. The growth of the surface crack has been simulated based upon the COA-criterion. and

Cyclic growth rate of a surface crack is complicated by the three dimensional stress field around the crack and also by an interaction expected between the growth rate at every position on the contour. An analysis, based on the total energy around a smfoce crack, derived a correlation between strain

The subcritical growth of semi-elliptical surface cracks in the front face of a cylindrical disk was calculated. The disk represents a part of a turbine rotor. The stress intensity factors, which are the basis for the calculations presented here, were given in a former paper [l]. The load steps cons

The line spring model with arbitrary distributed loads on crack surfaces is used to obtain the approximate solution for a surface-cracked plate subjected to thermal shock. The general formulation is finally reduced to two integral equations for net ligament stress and moment. Assuming that inertia e