Abstract:The influence of interrupted aging on the stress corrosion resistance of 2519A aluminum alloy investigated by double cantilever beam (DCB) test, polarization curve test and transmission electron microscopy(TEM). The results show that the stress corrosion cracking threshold of 2519A-T9I6 aluminum alloy is 29.07 MPa？m^1/2, decreased by 4.79 MPa？m^1/2 when compared to 2519-T87 aluminum alloy. In addition, 2519A-T9I6 aluminum alloy has a smaller polarization resistance and a higher polarization current than 2519-T87 aluminum alloy. On one hand, after T9I6 treatment, 2519A aluminum alloy produces plenty of finer precipitates and narrower precipitate-free zones (PFZs) than 2519-T87 aluminum alloy, which results in the increase of the stress corrosion resistance. On the other hand, the numerous, finer and denser GP zone that created during the process of interrupted aging at a low temperature transforms into continuous θ′(θ) phase, which leads to the increase of the corrosion channel after the re-aging process. So, the velocity of corrosion is accelerated. Because of these two competing reasons, the stress corrosion resistance of 2519A-T9I6 aluminum alloy are just a little lower than that of 2519A-T87 aluminum alloy, while the mechanical properties of 2519A-T9I6 aluminum alloy is much higher than those of 2519A-T87 aluminum alloy.

Key words: 2519A aluminum alloy; interrupted aging; stress corrosion susceptibility; microstructure