Electrochemical behaviour and structure of rust formed on Si- and Al-bearing steel after atmospheric exposure

Abstract

The corrosion resistance of Si- and Al-bearing steel was estimated by atmospheric exposure test, and the structure of the rust was examined by EPMA (electroprobe X-ray microanalysis) and TEM (transmission electron microscopy) analysis. Moreover, the electrochemical behaviour of rust was investigated by EIS (electrochemical impedance spectroscopy). The Si- and Al-bearing steel exhibited excellent corrosion resistance in the exposure test as compared with carbon steel (SM). EPMA and TEM analysis showed that Si and Al mainly existed in nanoscale iron complex oxides in the inner rust formed on this steel. The Al K spectrum of the rust exhibited a peak that was the same as that of Al 2O 3 in the EPMA and TEM–EELS (electron energy loss spectroscopy) analysis. This result suggests that Al was present in the complex oxides as Al 3+. In the same way, Si was identified as being in an intermediate state in the complex oxides of the inner rust. EIS measurement of the exposure test samples revealed much higher rust resistance (R rust) and corrosion reaction resistance (R t) of Si- and Al-bearing steel compared to that of SM. Finally, it was found that nanoscale complex iron oxides formed in the inner rust of Si- and Al-bearing steel, resulting in increased R rust and R t, and corrosion suppression.