IMPACT TOUGHNESS OF IRRADIATED REDUCED-ACTIVATION FERRITIC STEELS

Eight chromium-tungsten steels ranging from 2.25 to 12 wt% Cr were irr adiated at 365 degrees C to 13-14 dpa in the Fast Flux Test Facility. Post irradiation Charpy impact tests showed a loss of toughness for al l steels, as measured by an increase in the ductile-brittle transition temperature (DBTT) and a decrease in the upper-shelf energy. The most irradiation-resistant steels were two 9% Cr steels: the DBTT of a 9Cr -2W-0.25V-0.1C steel increased 29 degrees C, and for the same composit ion with an addition of 0.07% Ta the DBTT increased only 15 degrees C. This is the smallest shift ever observed for such a steel irradiated to these levels. The other steels developed shifts in DBTT of 100 to 3 00 degrees C. A 2.25% Cr steel with 2% W, 0.25% V, and 0.1% C was less severely affected by irradiation than 2.25% Cr steels with 0.25% V an d no tungsten, 2% W and no vanadium, and with 1% W and 0.25% V. Irradi ation resistance appears to be associated with microstructure, and mic rostructural manipulation may lead to improved properties.