| Abstract: | Singular integral equations are used to formulate the torsion problem of a circular cylinder containing a polygonal opening and a line crack. The formulation is based on degenerating a system of connecting line cracks to that of a polygon, the sides of which coincides with the cracks. Considered, in particular, is the torsion of a circular cylinder with a rectangular hole and a nearby slanted line crack. Mode III stress intensity factors are computed at both ends of the crack to reflect their relative position to the rectangular hole in addition to change in the dimensions of the crack relative to the other geometric variables. Recognizing that the singular behavior of the stresses near a reentrant's corner differs from that of the crack tip, intensification of the local stresses at the corners of the rectangular hole is also examined. The results show the influence of the crack size and position. |
