Effects of copper content and primary precipitates of 1050 aluminum alloy on the pitting corrosion in Cl(superscript -) and SO4(superscript 2-) solutions were investigated in this study. The results showed that copper assisted pitting initiation. However, the pitting growth rate of aluminum alloy was almost independent of the copper content below 0.112%.High Cl(superscript -) environment enhanced the initiation of pitting, and mixed solution of Cl(superscript -) and SO4(superscript 2-) helped the propagation of pitting. Surface polishing improved the pitting corrosion resistance. This result implied that surface constituent particles had close relation with the pitting corrosion of aluminum alloy. In-situ observation test indicated that pitting initiated in the vicinity of primary precipitates. The primary precipitates like Al-Fe-Si and Al-Fe-Si-Cu were nobler than the Al matrix. If they were arranged with network or cluster, the time to bring out pitting corrosion would dramatically be shortened.