Title:
Effect of Sulfate and Carbonate Ions on Reinforcing Steel Corrosion, as Evaluated Using AC iImpedance Spectroscopy
Author(s):
S. K. Somuah, J. K. Boah, P. Leblanc, A. J. Al-Tayyib, and A. I. Al-Mana
Publication:
Materials Journal
Volume:
88
Issue:
1
Appears on pages(s):
49-55
Keywords:
AC impedance; carbon dioxide; chlorides; corrosion; sulfates; reinforcing steels; Material Research
DOI:
10.14359/2364
Date:
1/1/1991
Abstract:
The electrochemical behavior of carbon steel in saturated calcium hydroxide solutions has been studied using AC impedance spectroscopy and linear polarization resistance techniques. Sulfate and carbonate ions help to break down the protective passive film, resulting in an increased rate of corrosion. The behavior of the sulfate is different from that of CO�2, since the sulfate forms a less protective film than the original iron oxide film. The CO�2, however, has two effects: it modifies the Ca(OH)�2 solution with the formation of CaCO�3 and also modifies the original passive film, leading to increased corrosion rates. With an increase in temperature from 22 to 50 C, the corrosion rate may be increased by as much as a factor of about 20. Two time constants initially characterize the electrochemical reactions caused by both sulfate and carbonate ions, but these reactions are eventually controlled by charge transfer.