Porous anodic films have attracted wide attention because of their potential applications in various industrial fields. Reducing their porosity is expected to improve the hardness. This study focused on evaluating the effect of the electrolyte composition on the hardness of anodic alumina films formed on aluminum by anodization under mild conditions. In particular, the effect of adding alcohol (i.e., ethanol and ethylene glycol) to an oxalic acid–based electrolyte was considered. The voltage–time curve, coating ratio (i.e., film formation efficiency), morphology, and Martens hardness of the resulting anodic alumina films were clearly affected by the type and amount of added alcohol. Adding alcohol effectively suppressed the chemical dissolution of the anodic film during anodization without needing to lower the electrolyte temperature, which formed high-strength films with low porosity and thick pore walls. The Martens hardness of the formed films increased by 18% with the addition of 50 vol% ethanol and increased by 25% with the addition of 50 vol% ethylene glycol.
The effect of two-step anodizing on the suppression of burning of aluminum surface during high current anodizing was investigated in oxalic acid-based electrolyte. When second anodizing at high current density was performed on aluminum coated with a first alumina layer with different thicknesses, the growth of the anodic film during the second anodizing was better with thinner first layer. On the other hand, when the same second anodizing was performed on aluminum coated with a first layer with different cell diameters, the larger cell diameter of the first layer was more effective in preventing burning. The relatively large concave arrays on aluminum formed by the first anodizing also inhibited burning during the second anodizing. In each method, it was found that prevention of burning could be achieved by dispersing pore generation sites and suppressing local current concentration during the second anodizing.
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