Corrosion fatigue behavior of extruded magnesium alloy AZ61 under three different corrosive environments

Abstract

Corrosion fatigue process of extruded AZ61 magnesium alloy has been investigated under three different corrosive environments: (a) high humidity environment (80% relative humidity), (b) 5 wt% NaCl solution environment, and (c) 5 wt% CaCl 2 solution environment. The fatigue strength drastically reduced under the three different corrosive environments: the reduction rates of fatigue limit under high humidity, NaCl and CaCl 2 environments were 0.22, 0.85 and 0.77, respectively. The drastic reduction in fatigue limit under corrosive environments resulted from pit formation and growth to the critical size for fatigue crack nucleation. It is suggested that the NaCl environment enhances pit formation and growth more than the CaCl 2 environment, due to the high Cl − concentration and low pH value. It is also found that the corrosion pit grows during fatigue cycles and the fatigue crack starts when the pit reaches a critical size for crack nucleation. The critical size is attained when the stress intensity factor range reaches the threshold value. The ratio between pit growth life to fatigue crack nucleation and total fatigue life was about 30%.