In this study, the pretreated 6061 aluminum alloy underwent anodically oxidized treatment to obtain a porous oxide surface, and then boiling-water treated to turn the surface into a compact coating, which not only can increase the corrosion resistance but also the surface electric resistivity. The pretreatments included shot-peening (Ra 3.5 μm) and surface electrochemical polishing. And sulfuric acid, oxalic acid, and phosphoric acid were employed in the anodically oxidization treatment, respectively. Different pore sizes were obtained on the specimen surface for different acid used, i.e. 37 nm, 70 nm, and 230 nm pores for sulfuric acid, oxalic acid and phosphoric acid. During the boiling-water sealing treatment, the specimen oxidized in sulfuric acid showed the fastest oxidation rate and the surface alumina structure was more compact than its counterparts. Then, the surface treated specimens were tested in the induction coupled plasma (ICP) etching with CF_4. Following the ICP corrosion testing, the specimens were examined with DC voltage insulation tester. It was found that the dielectric strengthof the coating decreased with the increase in exposure time to CF_4. Moreover, the aluminum alloy specimen if further annealed deteriorated both the dielectric strength and corrosion resistance.