Abstract Model alloys, Fe–9Cr, Fe–9Cr–2Mn and Fe–9Cr–0.5Si (wt%) were exposed to Ar–20%CO2–20%H2O–(0, 0.1, 0.5 and 1.0%)SO2 gases at 650 °C. In the absence of SO2, all alloys grew thick iron-rich oxide scales. Adding SO2 led to partial passivation by chromia formation on Fe–9Cr and Fe–9Cr–0.5Si, but not the Fe–9Cr–2Mn. Alloy carburisation was extensive in sulphur-free gas, but substantially suppressed by SO2. Internal sulphidation and oxidation were also observed. A silica layer formed beneath the chromia scale on Fe–9Cr–0.5Si in SO2-bearing gas, but not in sulphur-free gas. Reaction morphologies are discussed in terms of oxide grain boundary diffusion, as affected by sulphur uptake.

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