Influence of cladding-peripheral hydride on mechanical fuel failure under reactivity-initiated accident conditions
Tomiyasu, Kunihiko; Sugiyama, Tomoyuki ; Fuketa, Toyoshi
In order to investigate the influence of hydrogen embrittlement on fuel failure under reactivity-initiated accident (RIA) conditions, pulse irradiation experiments were performed with unirradiated fuel rods at the NSRR. The present study demonstrated hydride-assisted PCMI failure which has been observed in high burnup fuel experiments. The fuel enthalpy at failure was lower when the cladding had thicker hydride rim where surface cracks were easily generated. It indicates that the failure limit is highly correlated with the stress intensity factor assuming that the crack depth is equivalent to the hydride rim thickness. Hence we conclude that hydride rim formation is the primary factor of decreasing the failure limit for high burnup fuels. Based on the experimental results together with an analysis on cladding mechanical state during PCMI, the present study suggests a process of through-wall crack generation which is originated with brittle cracking within the hydride rim.