It can be shown that the energy required for fracture, Gc, is a function of the stress, σ, the crack length, a, and the modulus, E, such that:
This equation can be rearranged to give:
From this equation a stress intensity factor, K, can be defined:
We can therefore say that fast fracture occurs when a critical stress intensity factor, Kc, is reached, ie. K= Kc. Kc is referred to as the fracture toughness of the material.
±õ´ÚÌýKc is known the following can be derived from the equation:
- The crack length, a, that will result in fast fracture for a given applied stress.
- The applied stress, σ, that will result in fast fracture for a given crack length.