The Griffith energy criterion for brittle fracture is extended to mode
II and combined mode I-II fracture by postulating that crack extensio
n occurs when the maximum energy release rate in non-coplanar crack ex
tension is equal to the fracture energy rate required for the mode II
or the combined mode crack extension. The fracture energy rate is cons
idered to be proportional to the critical magnitude of the area of a f
rontal process zone at a crack tip for brittle materials. The area of
the frontal process zone is simply assessed here from the area enclose
d in the iso-stress contours of both the maximum principal stress and
the maximum shear stress around a crack tip. The anticipated ratio of
mode II and mode I fracture toughness, K-IIC/K-IC, is 1.20. The value
of the ratio, K-IIC/K-IC, is also estimated experimentally for float g
lass using a disk test. The result shows that the value of K-IIC/K-IC
is 1.28 which agrees quite well with the anticipated one.