Anodic aluminum film can be applied to increase the corrosion resistance properties of Al-alloy. In industry, aluminum acid anodizing was usually processed in acidic solution in the past. This study tries to use the solution of alkaline NaOH and add the Na2Sio3 modification to it. After changing various forming voltages (50V~350V)and processing the materials by microarc anodizing, all of them are put in 0.05M H2SO4 solution, using electrochemical measurement to probe into the electrochemical corrosion resistance behavior of anodic oxidation film caused by different forming voltages. The result shows that during the process of anodizing, when the forming voltage rises to 250V, a clear and abvious plasma arc will appear. When aluminum is after processed by anodizing, it has noble potential, higher R(subscript p) and lower i(subscript corr), In the test of Electrochemical Impedance Spectroscopy(EIS), in addition to R(subscript p) increasing with the rise of forming voltage, the R(subscript p) of the anodic aluminum film forming when the forming voltage is above 250V can increase to tenfold compared with Al-alloy(e.g. from 2000Ωto 20000Ω) due to the action of plasma arc. Thus it forms more delicate correction to protect the anodic oxidation film.