Abstract
The main goal of this work was to manufacture an oxide dispersion strengthened (ODS) reduced activation ferritic steel from a pre-alloyed, gas atomised Fe–14Cr–2W–0.2Ti (in wt.%) powder mechanically alloyed with either 0.3%Y 2O 3 or 0.5%Fe 2Y particles and consolidated by hot isostatic pressing, and to investigate its microstructure, microhardness and Charpy impact properties. A lower oxygen content was measured in the ODS Fe 2Y steel than in the ODS Y 2O 3 steel. However, the mean size of nanoclusters in the ODS Fe 2Y steel was found larger, whereas density was smaller, than in the ODS Y 2O 3 steel. In addition, the nanoclusters in the ODS Fe 2Y steel appear less stable upon thermal annealing at 1350 °C for 1 h. Vickers microhardness measurements revealed that after HIPping the ODS Y 2O 3 is about 40% harder (366 HV 0.1) than the ODS Fe 2Y (260 HV 0.1). After heat treatment at 1350 °C the microhardness of both alloys was found smaller by about 30%. The ODS Fe 2Y steel was found to exhibit a much better Charpy impact behaviour, with an upper shelf energy of 8.8 J and a ductile-to-brittle transition temperature of −24 °C. The differences in mechanical properties were discussed in terms of the oxygen content as well as in the mean size, number density and crystallographic structure of the nanoclusters.
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