Abstract:The boric-sulfuric acid anodic (BSAA) film on aluminum alloy was sealed by cerium salt conversion solution. The effects of sealing parameters on the corrosion resistance of BSAA film were researched through electrochemical impedance spectroscopy (EIS), while the corrosion resistance of anodic films sealed by different methods was studied. It is found that the resistance of porous layer increases significantly, the corrosion resistance is improved greatly and the corrosion current density is reduced by about 1 order of magnitude when the BSAA film was immersed in the cerium conversion solution (5 g/L Ce(NO₃)₃+0.5% H₂O₂) at 30 ℃ for 30 min. Besides, the corrosion resistance of BSAA film sealed by this method is much better than that by boiling water sealing, and also slightly superior to that of the dilute CrO₃ solution sealing. Combined with EDS analysis results, it is indicated that a intact, compact cerium conversion film forms on the outside surface of BSAA film, and the porous layer is also filled with sealing products when the BSAA film is sealed by cerium salt conversion solution. The synergism of the two actions almost completely sealed the pores of BSAA film, thereby effectively improving the corrosion resistance of anodic film.

Key words: boric-sulfuric acid anodic film; cerium salt conversion sealing; EIS; porous layer; corrosion resistance