The effects of load ratio on environmentally assisted fatigue crack growth

Abstract

A modification to the model of Weir et al. for surface reaction and transport controlled fatigue crack growth has been developed to explicitly account for the effect of load ratio on environmentally assisted fatigue crack growth. Load ratio was found to affect principally gas transport to the crack tip, and therefore affected only transport controlled crack growth response. Experimental verification of the modified model was made by studying the room temperature fatigue crack growth responses at different load ratios for a 2219-T851 aluminum alloy exposed to water vapor. The results show that the effects of load ratio can be attributed to two different sources—one relating to its effect on local deformation at the crack tip and is reflected through the mechanical component, (d a/d N) 0 and the other on its role in modifying environmental effect and is manifested through the corrosion fatigue component, (da/dN) cf Furthermore, the results show that the saturation value of corrosion fatigue component, (da/dN) cf,s , is essentially independent of R, and that the exposure needed to produce “saturation response” ( P 0/2f) s , as a function of load ratio can be predicted from the modified model. The modified model, therefore, allows one to predict the corrosion fatigue crack growth response for any load ratio on the basis of measurements made at a single load ratio, provided that the values of ( da/dN), are known.