A specimen geometry for plane mixed modes

## Several theories have been proposed for the failure of metals, as well as for the angle of crack propagation in mixed mode loading. In order to demonstrate the validity of these theories, the majority of tests have been carried out with an oblique crack placed in a uniaxial stress field. Better

New test specimens derivable from cores are proposed by the senior author. The specimen is semicircular in shape with an edge crack, subjected to three-point bending. For mode I fracture, the edge crack is cut perpendicular to the bottom edge. Kinematics of mode I specimen have been investigated. Fo

If B(a, b, c), then -B ( a , c, b). A 8. If points a, b and c are collinear and distinct, then at least one of B ( a , b, c), B ( b , c, a) or B(c, a, b) is true. In view of T 2.2, T 2.3, and T 2.4 exactly one of B ( a , b, c), B ( b , c, a ) , B ( c , a , b) is true. T2.5. If B ( a , b, d ) and B

The small scale yielding for mixed mode I and II plane stress crack problems in elastic perfectly-plastic solids is analysed by considering the stress field near the crack line. By expanding the stresses near the crack line and matching the stress field in the plastic zone with the elastic dominant

The strain energy criterion for crack propagation proposed in the paper is based on the principle that the direction of crack propagation takes place along the direction where the distance from the crack tip to a certain contour line of constant distortional strain energy density is minimum, and the

## Abstract For a ferritic construction steel similar to St37‐2 the cross section of three‐point bend type specimens was selected to be B : w = 1 : 2 and 1 : 1 (B: thickness, w: specimen width, and w = 25 mm was kept constant). For these two geometries the onset of stable crack growth J~0~ was foun