Studies on Halide-Induced Corrosion on Different Types of Steel

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A set of different measurements including inorganic anions simultaneously in presence of chloride is conducted on cement-like CaCO3 whereupon competitive adsorption measurements are correlated to zetapotential measurements. The adsorption isotherm of chloride on is obtained and the amount of bound and free chloride is investigated. Mild and stainless steel coupons are exposed to the supernatant solutions after centrifugation of the limestone suspensions and corrosion rates are calculated. The study gives an insight on the role of salinity and pH and the correlation of bound to free chlorides on the corrosion rates of steel in pipes in oil well cementing
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Mild Steel; Stainless Steel; Competitive Adsorption; Zetapotential; Corrosion Rate

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J. Sobhani, A.A. Ramezanianpour, Chloride-induced corrosion of RC structures, Asian J. Civil Eng., 9, (2007), 531-547.

C. Q. Li, Reliability based service life prediction of corrosion affected concrete structures, J. Struct. Eng. 130, (2004), 1570-1577.

G. Bassioni, A solution to the CO2 emission in the cement industry, The second International Energy 2030 Conference, Abu Dhabi, UAE, (2008), 381-388.

C. L. Page, Ø. Vennesland, Pore solution composition and chloride binding capacity of silica-fume cement pastes, Mater. Struct. 16, (1983), 19-25.

N. S. Berke, D. W. Pfeifer, T. G. Weil, Protection Against Chloride Induced Corrosion-A Review of Data and Economics on Microsilica and Calcium Nitrite, ACI Concr. Int. 10, (1988), 45-55.

G. K. Glass, N. R. Buenfeld, Chloride-induced corrosion of steel in concrete, Corrosion Sci., 42, (2000), 329-344.

B. Erlin, W. Hime, Chloride-induced corrosion, ACI Concr. Int. 7, (1985), 23-25.

J. R. Clifton, Predicting service life of concrete, ACI Mat. J. 90, (1993), 611-617.

Y. Liu, R.E. Weyers, Modelling the time-to-corrosion cracking in chloride contaminated reinforced concrete structures, ACI Mater. J., 95, (1998), 675-681.

K. Blackfolk, S. Lagerge, J. B. Rosenholm, D. Eklund, Aspects on the Interaction between Sodium Carboxymethylcellulose and Calcium Carbonate and the Relationship to Specific Site Adsorption, J. Colloid interface Sci., 248, (2002), 5-12.

J. Plank, G. Bassioni, Adsorption of Carboxylate on CaCO3 surface, Z. Naturforsch., 62b, (2007), 1277-1284.

J. Plank, G. Bassioni, Z. Dai, H. Keller, B. Sachsenhauser, N. Zouaoui, Neues zur Wechselwirkung zwischen Zementen und Polycarboxylat-Fließmitteln, ibausil-Tagungsband 16, (2006), 579-598.


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