Electrochemical reactivity, surface composition and corrosion mechanisms of the complex metallic alloy Al3Mg2

A corrosion mechanism is proposed for Al3Mg2, based on electrochemical tests, XPS, and depth profiling using XPS and ToF-SIMS. After short (similar to 2 min) solution exposure, the surface consists of a surface film above dealloying. The dealloying is attributed to selective Mg dissolution and the surface rearrangement of Al into islands, although the metallic Al could alternatively be formed by two reduction reactions. The surface film thickness was similar to 10nm. After exposure to ultra-pure water, the composition was AlMg1.3O0.2(OH)(5.1) corresponding to Al(OH)(3).1.1 Mg(OH)(2).0.2MgO. After exposure to 0.01 M Na2SO4, the composition was AlMg0.2O0.4(OH)(2.5) corresponding to Al(OH)(3).0.1Al(2)O(3).0.2MgO. Longer exposure produced a thicker surface film, more pronounced metallic Al islands and more MgH2. Three possibilities are identified for MgH2 formation. Al(OH)(3) formation is attributed to a precipitation reaction. Bulk nanoporous Al3Mg2 formation is predicted to be possible by Mg dealloying of Mg17Al12. (C) 2009 Elsevier Ltd. All rights reserved.