Abstract
Surface oxide layers were formed within crevices of Type 316L (UNS S31603) stainless steels in pure water at 288°C and 8 MPa. Cross-sectional structures of the surface oxides were analyzed using transmission electron microscopy. In the condition of dissolved oxygen concentration of 2 ppm, the properties of the surface oxide layer changed with position and dual- or triplex-layered oxides were formed at a certain distance from the crevice mouth. The multilayered oxides were composed of Fe-based oxide in the core and a high-Cr content in the outer layer, which had not been observed on a boldly exposed surface. On the contrary, in deaerated conditions, the surface oxide layers were composed of a magnetite (Fe3O4)-based outer and a Cr-enriched inner oxide layer, regardless of the crevice position. Electrochemical condition within the crevice was identified by using a E–pH diagram. It was suggested that, at 400 μm distance from the crevice mouth, the potential lowered at the early stage of exposure, and then sh...
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