On interpretation of the mechanism of stress-corrosion crack growth and relevant terminology

## Abstract Using the electroresistivity method the influence was investigated of the anodic and cathodic polarization on the crack growth rate during stress corrosion cracking (SCC) of Zr alloys in aqueous and nonaqueous electrolytes. The ambiguous effect of the cathodic polarization on CGR was ob

Abslraet-A model is proposed to account for interactions between fatigue and stress corrosion crack propagation mechanisms in appropriate corrosion fatigue conditions. Tests on an alloy steel, and both wrought and cast aluminium alloys, are reported. Despite the use of very simple coefficients in th

Cychc pre-stress increases subsequent fatigue crack growth rate in 2024-T3Sl ahrminum ahoy. This increase in growth rate, caused by the pre-stress, and the increased rate, caused by temper embrittlement as observed by Ritchie and Knott, cannot be explained by the crack tip blunting model alone. Each

A fracture mechanics approach to stress corrosion cracking is highlighted. The mechanisms of stress corrosion cracking is presented. Experiments on 2024 and 7075 aluminium alloys are carried out to determine their mechanical properties, microstructure and plane strain fracture toughness (K,,). Stres

This paper represents a critical review of the loading Mode 1 (tension) and Mode 111 (torsion) technique as a means of determining the role of hydrogen embrittlement in crack growth during stress-corrosion cracking of structural materials. An account is given of the mechanical and electrochemical as