• Jb, Memet
• Deslouis, C.
• Girault, P.
• Compère, C.
• Sabot, R.

Abstract

The corrosion of low carbon steel in natural sea-water is characterized by the formation and growth of compact and thick layers composed of oxides, insoluble salts and organic materials. These layers are the result of corrosion processes induced by local environmental conditions, water oxygen supply: ionic species; bacteria and organic matter. The exchange of various species (ions. molecules, gas) between sea-water and the rust layers or the metal depends both on the kinetics of the Faradaic reactions of the entities with either the oxides or the metal, as well as on their transport properties through the different strata of the rust layers. In this work, an impedance study was carried out using the 4-electrodes cell arrangement with corrosion products picked up on steel sheet piling immersed for 25 years and analyzed as free standing membranes. This new approach is a good way to reach the specific transport and transfer properties of the oxide without being blurred by the metal influence. The physical model developed in this work was based on a transmission line, and accurately described the experimental diagrams. The electronic resistivity of the oxide layer, its porosity, the mean pore size and the reaction kinetics parameters could be determined from the fittings. (C) 2002 Elsevier Science Ltd. All rights reserved.

Topics

• impedance spectroscopy
• pore
• Carbon
• corrosion
• resistivity
• Oxygen
• steel
• porosity