The effect of diffusive hydrogen segregation on fracture of polycrystalline nickel

Hydrogen charged nickel was deformed in tension at a test temperature of 208 K to study the diffusive segregation of hydrogen during straining and the dependence of embrittlement on grain boundary hydrogen concentration and deformation rate. Tests were performed on samples in the as-quenched conditi

The et&t of sulfur segregation and hydrogen charging on the grain boundary strength of iron was investigated by a slow strain-rate tensile test at 77 K. The amount of sulfur segregation at grain boundaries was controlled by varying the initial purity of specimens and quenching temperature and was de

Slow strain-rate tensile tests have been performed on hydrogen-charged f.c.c. nickel-iron alloys. The hydrogen embrittlement observed in pure nickel is suppressed by alloying with iron so that the deformation and fracture behaviour of alloys containing 50 and 60 % o f of hydrogen at levels in the or

The diffusion of hydrogen in elastically and plastically strained nickel has been measured by a permeability experiment with the result that no significant change of the diffusion coefficient was observed for deformations up to 10 per cent. These results are in agreement with a recent theoretical an

tion of the alloyed hydrogen. ## Pennsylvania. Previous determinations of hydrogen diffusion rates