Abstract
Weld specimens of the reference low activation vanadium alloy, NIFS-HEAT-2, were irradiated up to a neutron fluence of 1.5×1025nm−2 (E>0.1MeV) (1.2dpa) at 670K and 1.3×1026nm−2 (5.3dpa) at 720K in the JOYO reactor in Japan. The base metal exhibited superior irradiation resistance with the ductile-to-brittle transition temperature (DBTT) much lower than room temperature (RT) for both irradiation conditions. The weld metal kept the DBTT below RT after the 1.2dpa irradiation; however, it showed enhanced irradiation embrittlement with much higher DBTT than RT after the 5.3dpa irradiation. The high DBTT for the weld metal was effectively recovered by a post-irradiation annealing at 873K for 1h. Mechanisms of the irradiation embrittlement and its recovery are discussed, based on characterization of the radiation defects and irradiation-induced precipitation.
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