P. Krautwasser et al., THERMAL-STABILITY OF DISPERSOIDS IN FERRITIC OXIDE DISPERSION-STRENGTHENED ALLOYS, Materials science & engineering. A, Structural materials: properties, microstructure and processing, 177(1-2), 1994, pp. 199-208
To study the thermal stability of dispersoids in ferritic oxide-disper
sion-strengthened (ODS) alloys, specimens of two alloys, F10 (PM2000)
and F11 (PM2010), with different yttria contents were isothermally ann
ealed at 1623 K or isochronally heat treated for 110 h in the temperat
ure range 1273-1623 K. The investigations were performed by small angl
e neutron scattering and transmission electron microscopy in conjuncti
on with quantitative image analysis. Two overlapping size distribution
s of dispersoids in the approximate size ranges from 5 to 40 nm and fr
om 40 to 100 nm were found. In addition, a third size distribution of
larger particles with a mean value above 250 nm was present. The size
distributions determined with each technique are in good agreement for
the dispersoids in the size range 5-100 nm, which influence the creep
resistance of ODS alloys at high temperatures. Since the aluminium co
ntent of the dispersoids increases with increasing heat treatment time
and phase transformations take place, the coarsening behaviour of the
dispersoids cannot be described by Ostwald ripening. A variation in y
ttria content in the alloys of between 0.5% and 1% had no significant
effect on the number density of dispersoids smaller than 100 nm.