EFFECT OF STRESS TRIAXIALITY LEVELS IN CRACK TIP REGIONS ON THE CHARACTERISTICS OF VOID GROWTH AND FRACTURE CRITERIA

The behaviour of void growth in the crack tip regions of four specimen geometries with different stress triaxiality levels have been investigated by the FEM method and experimental observations in plane strain and plane stress cases respectively. It was found that the shape change of growing voids, the configurations of a blunting crack tip and the sizes of decreasing ligament between the void and the crack tip are strongly dependent upon the stress triaxiality levels. Under the condition of plane stress, the stress triaxiality on the ligaments of cracks are nearly the same for different specimen geometries, also the void growth, crack tip blunting and decreasing of ligament size are identical for various specimens with increasing load levels, which lead to the conclusion that the J(i)-value is independent of specimen geometries. However, in the plain strain case, different void growth, crack tip blunting and decreasing in ligament size for various stress triaxiality levels directly caused the J(i)-value to be dependent on the specimen geometries. It was found that when the void is linked to the blunting crack tip by the extrapolation to the zero ligament from FEM calculations, the J(i) values, measured experimentally, are underestimated slightly.