1. Steam oxidation of Super 304H and shot-peened Super 304H
- Author
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Hugh Evans, Paul D. Brown, Brian J. Connolly, T. Lant, Colin Cooper, M.I. Bass, and J.C. Rosser
- Subjects
Materials science ,Atmospheric pressure ,Mechanical Engineering ,Metallurgy ,Spinel ,technology, industry, and agriculture ,Metals and Alloys ,Oxide ,food and beverages ,Peening ,chemistry.chemical_element ,Atmospheric temperature range ,engineering.material ,Condensed Matter Physics ,complex mixtures ,humanities ,chemistry.chemical_compound ,Chromium ,chemistry ,Mechanics of Materials ,Materials Chemistry ,Ceramics and Composites ,engineering ,Spallation ,Austenitic stainless steel - Abstract
Oxidation of Super 304H and shot-peened Super 304H austenitic stainless steel was conducted over a temperature range of 600 – 700°C in steam at atmospheric pressure and compared with oxidation in laboratory air. It was observed that the mass gain was higher in steam compared with air. It should be noted that the shot-peening treatment improved the oxidation resistance in both air and steam considerably. Furthermore, spallation was only observed on the pickled Super 304H specimens and only in steam after exposures at 650°C and 700°C. The protective films found at the base of the duplex oxide grown on pickled Super 304H in air and steam were found to differ in that after exposure to air, a chromium rich film was present whereas after exposure to steam, a less protective Cr–Mn spinel was present. The oxidation kinetics were assumed to be parabolic for purposes of comparison and parabolic rate constants, Kp, were calculated for oxide growth under the different oxidation conditions. The Kp value for th...
- Published
- 2012
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