Pitting behavior of pure aluminum foils (99.95%) in hydrochloric solution performed at constant alternating current was investigated. A diagram of v-I diagram was plotted from the galvanodynamic voltammetry polarization (GVP) of the aluminum foil in the acid solution. Corrosion morphology of the aluminum foil was examined through scanning electron microscope (SEM). The relationship between the corrosion morphology and the corresponding profile of V-I diagram for the aluminum foil was of interest. Morphology examination revealed that the size of pits and the portion of pitting area decrease markedly with increasing the frequency of the alternating current. Analyzing in the V-I diagram, we found that the breakdown potential(E (subscript b))with its corresponding current density decreases with increasing the ac frequency. The effect of additives indicated that an addition of sulfuric acid in the electrolyte results to intensify the size difference of pits, thus size distribution becoming less homogeneous. The addition of aluminum chloride (A1C13) in the electrolyte only intensified the pitting corrosion when high frequency ac (＞ 60 Hz) was applied.