Initiation and repassivation of crevice corrosion of type 444 stainless steel in chloride solution

Abstract

Effects of chloride ion concentrations, solution temperature, and crevice-forming materials on the crevice corrosion of type 444 stainless steel were investigated using a potentiostatic method. Critical crevice potential (Ecrev) and repassivation potential (Er) of the creviced alloy decreased with an increase in chloride concentration [Cl−], satisfying the logarithmic relationship between E and [Cl−]. In addition, Ecrev and Er of the alloy with silicone crevice former were measured to be higher than those of the alloy with an EPDM (Ethylene Propylene Diene Monomer) crevice former, suggesting that silicone was more effective in preventing water from penetrating crevices between a stainless steel sheet and the crevice former. In electrochemical current transient measurements with an applied potential, the intensity of current transients corresponding to the initiation of metastable pits increased abruptly near the Er of the alloy, indicating that the stability of crevice corrosion is associated with the initiation of metastable pits.