The role of temperature change on the stability of crevice corrosion in a commercially pure nickel was investigated in 1 N sulfuric acid (H2SO4). The crevice current and the potential gradient within the crevice were measured at 24, 45, and 70°C, for a crevice with both ends open and its mouth facing the electrolyte in a downward position. Experimentation demonstrated that the active/passive boundary, xpass, moved closer to the crevice mouth while the crevice current rose sharply for increasing temperature. A large, steep potential drop of 589 mV on the crevice wall was measured at 70°C, when the potential at the surface, Esurf, was held at 400 mV vs saturated calomel electrode (SCE). These findings were in close agreement with the IR voltage theory predictions.

Subject
Noble potential, Corrosion currents, Passive current, Walls, Polarization curves, Crevices, Film formation, Crevice corrosion, Nickel, Mixed potential, Corrosion potential, Electrolytes, Electrode potential
Keywords:
acid solution, crevice corrosion, localized attack, nickel, polarization curve, potentiostatic testing, temperature
NACE International
2002
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