Iron aluminide alloys containing 16-40 at% aluminum and 0-5 at% chromi
um were tested in H2S-H-2-H2O gas mixtures at 800-degrees-C and in air
at 800-1000-degrees-C. Results were compared with those for developme
ntal Fe-Cr-Al alloys. Alloys containing 18% or more aluminum were high
ly resistant to H2S-H-2-H2O gas mixtures, and the corrosion behavior d
id not change significantly with aluminum concentrations above 18%. A
20 at% Al level was found to be critical for sustained oxidation resis
tance of binary Fe-Al alloys in air at 900-degrees-C and above. Howeve
r, the addition of 5 at% Cr at the 16 at% Al level reduced the oxidati
on rate in air to that of alloys containing greater-than-or-equal-to 2
0% Al. Corrosion rates of iron aluminides were comparable to Fe-Cr-Al
alloys in air but were significantly lower than Cr-containing alloys i
n H2S-H-2-H2O. The respective corrosion processes operative for iron a
luminides in mixed gas and air are discussed in terms of the observed
alloying effects.