Abstract:The optical microscopy, transmission electron microscopy (TEM), X-ray diffractometry (XRD), scanning electron microscopy (SEM) and energy dispersive spectrum (EDS) were employed to study the effect of residual constituents on the intergranular corrosion (IGC) behavior of Al-Mg-Si-Cu alloy in the neutral and acidic solutions. The results show that the alloy includes two types of constituent phases, Mg₂Si and Al_4.01(MnFeCrCu)Si_0.74. In the neutral and acidic solutions, the anodic Mg₂Si phase first undergoes the preferential dissolution of Mg and converts into the cathodic one, which gives rise to the point corroding of adjacent matrix. The Al_4.01(MnFeCrCu)Si_0.74 phase leads to the anodic dissolution of matrix at its adjacent periphery in the neutral solution. But the self-corrosion of Al_4.01(MnFeCrCu)Si_0.74 occurs in the acidic solution. It is the pitting corrosion occurring at the grain boundary that can directly induce IGC. However, IGC does not occur until the pit grows up and contacts with the grain boundary when the pits are in the grain interior. Besides, unlike the corrosion behavior of alloy in the neutral solution, IGC can occur spontaneously by grain boundary in the acidic condition.

Key words: Al-Mg-Si-Cu alloy; constituents; preferential dissolution; intergranular corrosion; pitting corrosion