The influence of passivation on the kinetics of the dissolution of iron—II. Proton transfer and the pulse anode effect on passive iron

AhstraceThe anodic behaviour of pure, recrystallized iron in acid sulphate and perchlorate solutions free of oxygen and surface active substances was investigated in the potential range between the active and passive stzite. The measurements were carried out using an iron rotating disk electrode by

Miissbauer spectroscopy and electrochemical measurements were used to study the passivation of iron and steels in a sulphite containing solution. The potentiodynamic curves show that passivation occurs at -140 mV potential us saturated calomel electrode (see). The main phase of the passive layer was

The effect of chelating agent on the cathodic reduction of the passive film on iron has been studied. The results from the potentiodynamic polarisation and galvanostatic reduction curves indicated that the contribution of chelating agent was to expedite the reduction of the passive film, and eventua

~The anodic behuviour of highly pure iron in weak acid aqueous solutions which are free of oxygen and surface active compounds takes place in dllTerent ranges: active dissolution, Lransitlon range. prepassive range and passive state. This is indicated by the experimentally ohserved current-density p