Abstract

An electrochemical technique has been developed with which the steady‐state concentration of adsorbed hydrogen on an iron surface, θ, can be determined. By using values of θ determined by electrochemical techniques, a method of evaluating the specific rate constant for hydrogen absorption into iron, kabs, has been developed. Values of θ determined on a cathodically polarized iron surface in 0.0001N sodium hydroxide + 0.1M sodium sulfate were between 5 and 12% of the total monolayer coverage, over the current‐density range . This current‐density range represents a hydrogen generation rate equivalent to a corrosion rate of 5–150 mils penetration per year. The variation of θ with cathodic overpotential was in close agreement with theory; values of δη/δ log10 θ were 3.5 V/decade measured experimentally and 4.2 V/decade theoretically. Experimental values of θ permit, for the first time, determination of the specific rate constant for the absorption reaction.