Hydrogen damage in AISI 304 stainless steel studied by Doppler broadening

Hydrogen damage of AISI 304 stainless steel has been systemically investigated by measuring Doppler broadening of positron annihilation. Defect profiles of the S-parameter, the low-momentum annihilation fraction as a function of positron incident energy up to 30 keV (i.e. 1 mm depth) have been analyzed. Experimental results show that hydrogen damage between the surface and the bulk has a significant variation with depth, and strongly depends on the condition of hydrogen-charging, i.e. current density and charging time. It has been suggested that the increase in S-parameter near the surface after hydrogencharging mainly comes from the formation of voids; however the increase in S-parameter in the bulk after hydrogen-charging mainly comes from the production of structural defects (dislocations). Defect densities induced due to hydrogen-charging in some cases (e.g. dislocation density in the bulk) are estimated based on the simple two-state trapping model.