Corrosion behavior of steel under wet and dry cycles containing Cr3+ ion

Autor: S. Morimoto, Takayuki Kamimura, Takashi Segi, Takashi Tazaki, Hideaki Miyuki, S. Nasu
Rok vydání: 2003
Předmět:
Zdroj: Corrosion Science. 45:1863-1879
ISSN: 0010-938X
DOI: 10.1016/s0010-938x(03)00023-4
Popis: The corrosion behavior of mild steel has been investigated during the wet and dry cyclic transitions containing Cr 3+ ion added as sulfate in order to gain a better understanding of the influence of Cr on the atmospheric corrosion of steels. The corrosion rate during drying is greatly suppressed by the existence of Cr 3+ ion in the electrolyte covered with the surface. Lower corrosion rates are observed during drying even if the surface have been polarized to negative potentials below −200 mV SHE during the wet corrosion conditions in which the surface-covered electrolyte contains Cr 3+ ion. This corrosion behavior is identical to the case of Cr-containing steel for the wet and dry cyclic transitions without the addition of Cr 3+ ion. The composition of rust layer after the wet and dry cyclic transitions is composed of α-FeOOH, γ-FeOOH and Fe 3− δ O 4 for both cases of non-Cr 3+ and Cr 3+ -containing condition, and no significant difference in the mass fraction of the above rust substances between two conditions is observed by means of Mossbauer spectroscopy. The only difference in the rust layer is that the rust formed under the wet and dry cyclic transitions containing Cr 3+ ion contains a certain amount of Cr near the steel/rust interface. Those results suggest that the role of Cr during the wet and dry cyclic transitions is the inhibition of the rust reduction and the formation of Fe 2+ -state intermediate by the existence of Cr in the rust layer. This can lead to the inhibition of the oxygen reduction during drying.
Databáze: OpenAIRE