A comparison of the pitting susceptibility and semiconducting properties of the passive films on carbon steel in chromate and bicarbonate solutions

Abstract

The semiconducting properties and pitting susceptibility of the passive films formed on A516-70 carbon steel in chromate and bicarbonate solutions were studied by polarization measurements, electrochemical noise (EN) and Mott–Schottky analysis. A stable passivity is established in 0.01 M CrO 4 2− solution with a potential range of more than 1000 mV and the pitting potential of 900 mV (Ag/AgCl). Similar passive properties are obtained in bicarbonate solution only when the concentration of HCO 3 − reaches 0.5 M. Upon the addition of Cl −, metastable pitting is initiated and indicated by the typical current transients, which have the shape of a quick current rise followed by a slow recovery. There is a higher pit-initiation rate and a smaller noise resistance in the bicarbonate solution than in the chromate solution. The strong frequency dependence of the capacitance behavior shows that the passive films formed in both solutions are n-type semiconductors with a highly disordered nature. There is a thicker space-charge layer, a lower donor density and a more positive flat-band potential for the passive film formed in the chromate solution. Electrochemical results show that the passive film that formed in the chromate solution is more stable than that formed in the bicarbonate solution.