Corrosion behaviour of galvanized steel studied by electrochemical microprobes applied on low-angle cross sections

Citation:

S. M. Manhabosco, T. M. Manhabosco, N. Geoffroy, V. Vignal, and L. F. P. Dick, “Corrosion behaviour of galvanized steel studied by electrochemical microprobes applied on low-angle cross sections,” Corrosion Science, vol. 140, pp. 379 - 387, 2018.

Abstract:

The combined use of the microcapillary cell (MEC) and scanning vibrating electrode technique (SVET) and low-angle cross sections was employed to elucidate the role of each coating region on the protection of the cut-edge corrosion of galvanized steels. Different compounds are involved in the blocking action of the corrosion products: Zincite (ZnO) on the steel substrate, hydrozincite (Zn5(OH)6(CO3)2) at the coating/steel interface, and Simonkolleite (Zn5(OH)8Cl2) and ZnO on the different coating regions in different proportions. The coating surface is also active at the initial stage and during long-term protection and thus, must be considered in experimental simulation of the cut-edge corrosion.

Website

Last updated on 04/01/2019