Pure opening mode stress-intensity factor computation for elliptical crack fronts

Aktract-The mode II (forward shear) fracture of western hemlock wood beams is -studied. Results of a finite element analysis are presented showing the relationship between the mode II stress-intensity factor and the geometry of the wood beam. Two types of loading are considered: a concentrated load

The stress intensity factor at the deepest point of a semi-elliptical surface crack is calculated for stress gradients in direction of depth. The method is based on weight functions. The crack opening displacement for the reference problem is calculated with a method proposed by Petroski and Achenba

The technique of half-fringe photoelasticity (HFP) was used for the determination of the opening mode stress intensity factor for edge cracked strips in uniaxial tensile loading. The results for four different crack lengths are presented and compared with the available analytical and experimental re

Almraet--ln tl'is study, the determination of the opening mode stress intensity factor by using strain gage methods is inv,.-stigated both experimentally and analytically. The results are compared with the finite element solution. In the experimental program, cracks are opened at the tip of crack st