Method to calculate bending center and stress intensity factors of cracked cylinder under saint-venant bending

Using the single crack solutions and the regular solution of harmonic function, the bending problem of a cracked cylinder is reduced to solving two sets of mixed-type integral equations which can be solved by combining the numerical method of the singular integral equation with the boundary element

Recently, a simple new approach -force balance method (FBM) -and its improved version have been proposed to calculate geometric correction factors [1][2][3][4]. In the initial FBM, the stress distribution in front of the crack tip along the crack line for a finite-width plate was assumed to have the

A hybrid weight-function technique is presented. It consists of dividing an elliptical crack into two zones, then using the appropriate weight function in the area where it is more efficient. The proportion between zones is determined by optimizing two crack parameters (axis ratio and curvature radi