The main objective of this work is to study the effect of the dissolved oxygen on the corrosion behavior of Al2O3/Al composite in a 3.5% aqueous NaCl solution. The corrosion behaviors of the Al and its composite were evaluated by a simple immersion test for 3 weeks in 3.5% NaCl solution. The open circuit potentials of the Al and its composite were recorded continuously through the immersion duration with and without the purging of dissolved oxygen. After different periods of immersion, the weight losses, surface pitting and its amount and metallographs in the metal and composite were measured and examined quantitatively. The results show that the composite has less corrosion resistance when the solution contained dissolved oxygen, and the pitting was more severe than that in the corresponding control Al. The composite also exhibited an unstable open circuit potential during the immersion. In the absence of dissolved oxygen, pitting corrosion resistance of the composite and aluminum was largely improved, and both materials exhibited the same corrosion behavior. However, the electrochemical lest result showed that the composite showed the less corrosion resistant behavior than that of the Al. The Al2O3 reinforcements apparently had no effect on the pitting behavior of the Al matrix if oxygen was absent in the solution. In summary, the dissolved oxygen exhibits a significant influence on the corrosion behavior of Al matrix than does the Al2O3 reinforcement.