| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1470006 | Corrosion Science | 2011 | 9 Pages |
Corrosion products are identified on Zn, ZnMg and ZnAlMg coatings in cyclic corrosion tests with NaCl or Na2SO4 containing atmospheres. For Mg-containing alloys the improved corrosion resistance is achieved by stabilization of protective simonkolleite and zinc hydroxysulfate. At later stages, the formation of layered double hydroxides (LDH) is observed for ZnAlMg. According to thermodynamic modeling, Mg2+ ions bind the excess of carbonate or sulfate anions preventing the formation of soluble or less-protective products. A preferential dissolution of Zn and Mg at initial stages of corrosion is confirmed by in situ dissolution measurement. The physicochemical properties of different corrosion products are compared.
► Origins of better corrosion resistance of ZnAlMg coatings than galvanized steel. ► Comparative study of corrosion products formed on ZnAlMg, ZnMg and Zn coatings. ► Modeling of dissolution and precipitation stages of corrosion. ► At early stages Mg stabilizes protective zinc basic salts during dry-wet cycling. ► At later stages Al dissolves at high pH forming protective layered double hydroxides.
