In-situ Analysis of Passive Films on High Purity Fe-Cr Alloys Using Ellipsometry and Potential-Modulated Reflection Spectroscopy

抄録

Passive films on high purity Fe-Cr alloys (13-24 mass% Cr), which were prepared by an Ar plasma melting method using high purity Fe produced by a method combining anion exchange and zone-refining processes and high purity Cr produced by an iodide process, have been investigated in-situ in pH 6.0, 1 kmol·m^–3 Na₂SO₄ using ellipsometry and potential-modulated reflection spectroscopy. The thickness, d, optical constants, N₂, and cationic mass fractons of Cr³⁺ ions, X_Cr, of the films were determined as a function of potential and Cr content of the alloy. The same analyses were performed on 400 series ferritic stainless steels (13-24 mass% Cr) to elucidate the changes in the film properties with the change in the purity of alloy. It was found that for the passive films on high purity Fe-Cr alloys the value of d increased and, at the same time, that of X_Cr decreased with increasing potential. At a given potential, the values of d and N₂ decreased with increasing Cr content of the alloy and those of X_Cr increased correspondingly. Similar results were obtained on commercial ferritic stainless steels. The values of d, N₂ and X_Cr changed in dependence on the purity of alloy. That is, the values of d and N₂ decreased and those of X_Cr increased with increasing purity. The increase in X_Cr of the films should contribute the increase in the corrosion resistance of the high purity alloys.