Abstract
It has been reported that cracks grow along {100} independent of the tensile direction in hydrogen embitterment in nickel single crystal. Behavior of crack initiation by cathodic hydrogen charging was investigated in the present work to clarify the mechanism of hydrogen embrittlement. Hydrogen was charged on (100) or (111) surface of specimens during 180 hours at 100 A/m2 cathodic current density. Nickel α phase was transformed into the hydride by hydrogen. A lot of cracks were observed in the nickel-hydride layer without external stress. They were along {100} independent of the plane charged hydrogen, though the distribution of the cracks on the surface depends on it. Therefore, {100} cracking is preferred in nickel hydride. It corresponds to the morphology of the fracture surface in hydrogen embrittlement in nickel single crystal.
