The oxidation behaviour of an oxide dispersion-strengthened (ODS) FeAl inte
rmetallic, microalloyed with Zr and B and strengthened by a fine dispersion
of Y2O3, is investigated at 1100 degrees C for exposures of up to 200 h. T
he results show that a pure alumina scale is formed irrespective of the exp
osure time. The oxidation rate is far inferior to that found on PM 2000, a
commercial alumina forming ODS ferritic superalloy. Limited scale spallatio
n is observed in the intermetallic alloy from the early stages of oxidation
. Scale failure, which is shown to occur during the cooling stage after oxi
dation and not at the high temperature of oxidation itself, results from th
e high compressive residual stresses in the scale induced by the misfit in
the thermal expansion coefficients of the scale and the substrate. Failure
of the scale may be supressed by using a very low cooling rate after oxidat
ion. (C) 2000 Elsevier Science Ltd. All rights reserved.