The mechanical behavior of ZIRCALOY-4 sheets is investigated at room temper
ature. The effect of hydride precipitation on the mechanical behavior and o
n the rupture mechanism is also studied, in the range from 200 to 1200 wt p
pm hydrogen and for different stress triaxialities. It is shown that the ma
terial exhibits a strong anisotropy due to its pronounced texture, and that
its mechanical properties depend on the strain rate. Hydride precipitation
appears to have no effect on the anisotropy or on the strain-rate sensitiv
ity, in the range from 10(-4) to 10(-2) s(-1). The main effect of hydrogen
is the reduction of the ductility and of crack resistance. The ductile rupt
ure mechanism is studied, focusing on the stage of damage nucleation by hyd
ride fracture.
Observations during scanning electron microscopy (SEM) in situ tests show t
hat hydrides allow the transmission of slip, which occurs in ZIRCALOY-4 gra
ins. Hydrides can also deform, together with surrounding zirconium matrix.
Damage appears after a plastic-strain yield of about 15 to 25 pet. Fracture
occurs first on intergranular hydrides. Fracture of transgranular hydrides
is observed only prior to failure, for higher plastic strains.