Stress corrosion cracking behavior of Nd:YAG laser-treated aluminum alloy 7075

Nd-YAG laser surface treatment was conducted on 7075-T651 aluminum alloy with the aim of improving the stress corrosion cracking resistance of the alloy. Laser surface treatment was performed under two different gas environments, air and nitrogen.After the laser treatment, coarse constituent particles were removed and fine cellular/dendritic structures had formed. In addition, for the N2-treated specimen, anAlN phasewas detected. The results of the stress corrosion test showed that after 30 days of immersion, the untreated specimen had been severely attacked by corrosion, with intergranular cracks having formed along the planar grain boundaries of the specimen. For the air-treated specimen, some relatively long stress corrosion cracks and a small number of relatively large corrosion pits were found. The cracksmainly followed the interdendritic boundaries; the fusion boundary was found to be acting as an arrestor to corrosion attacks. In contrast, only fewshort stress corrosion cracks appeared in theN2-treated specimen, indicating an improvement in corrosion initiation resistance. The superior corrosion resistancewas attributed to the formation of the AlN phase in the surface of the laser-melted layer, which is an electrical insulator. The electrochemical impedance measurements taken during the stress corrosion test showed that the filmresistance of the laser-treated specimens was always higher than that of the untreated specimen, with the N2-treated specimen showing the highest resistance