This study deals with the demand for corrosion-resistance and a concern for sightly appearance in the case of innovative anti-electromagnetic interference plastic enclosures cladded with superplastic Zn22Al thin metallic sheets. For this purpose, the surface of Zn22Al has undergone an anodic coloring treatment. Two steps are involved in the manufacturing process: in the first step, a voltage of 60V (60Hz) is applied to the surface of the Zn22Al alloy in an alkaline solution to create a passive oxide barrier layer, while the second step is to increase the voltage applied to spur on the breakdown of the barrier layer as the spark discharge effect will be triggered to facilitate the formation of an anodic coating structure. Through SEM/EDS, EPMA and electrochemical tests, the anodic layer is analyzed in detail. The results show that the anodic layer has a porous volcano-like structure with a composition of Si, Al, Zn, Na, and O, which also contains embedded transition metal ions. The layer structure is proposed to be aluminum-fused silicate that retains a surface coating of zincate. Such an anodic layer is hard enough to attain great corrosion-resistance results.