Crevice Corrosion Initiation at Engineered Cu-Rich Defects in Al Thin Films

Engineered Cu-rich islands were fabricated on an Al thin film to investigate pit initiation mechanisms at noble particles. X-ray photoelectron spectroscopy confirms that the thin film Cu-rich islands interdiffuse with the underlying Al substrate to form Al{sub 2}Cu islands. The defect arrays exhibit open circuit potential fluctuations whose magnitude and frequency increase as defect spacing decreases for constant island size and cathode/anode ratio. Post-exposure examination by energy dispersive spectroscopy (EDS) shows that the Al beneath the Cu-rich island dissolves with a crevice geometry. Engineered Al islands fabricated under identical conditions do not induce crevice corrosion in the vicinity of the Al defects. These results suggest that the Al dissolution is driven by the galvanic coupling between the noble island and matrix, and/or by a local change in chemistry, rather than by the presence of a defective oxide in the vicinity of the island.