Voltammetric Adsorption Studies of Commercial Corrosion Inhibitors. A First Correlating Approach to the Corrosion Inhibition Efficiency

DElia, L.F.; Torres, F.; Báez, V.

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Portugaliae Electrochimica Acta

Print version ISSN 0872-1904

Port. Electrochim. Acta vol.27 no.6 Coimbra 2009

Voltammetric Adsorption Studies of Commercial Corrosion Inhibitors. A First Correlating Approach to the Corrosion Inhibition Efficiency

L.F. DElia,^* F. Torres, V. Báez

Petróleos de Venezuela (PDVSA)-Intevep, Gerencia General de Refinación e Industrialización, Gerencia Técnica de Refinación, Apartado 76343, Caracas 1070-A, República Bolivariana de Venezuela

Received 21 January 2009; accepted 13 November 2009

Abstract

Adsorption of film forming corrosion inhibitors on metallic surfaces led to a decrease in corrosion rates, since the adsorbed organic molecules behave as chemical and physical barriers for cathodic and anodic reactions. A novel and simple methodology to characterize commercial corrosion inhibitors is proposed. Fundamental studies of film forming corrosion inhibitors adsorption on platinum and its correlation with corrosion inhibition efficiencies of steel provide useful information for quality control of film forming inhibitors.

Keywords:corrosion inhibitors adsorption, corrosion inhibition, impedance spectroscopy, cycle voltammetry, adsorption-corrosion inhibition correlation.

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References

1. P.R. Roberger, Handbook of Corrosion Engineering, McGraw-Hill, New York, 2000.

2. Z. Foroulis, Molecular designing of organic corrosion inhibitors, Naval Research Office, New York, 1996.

3. A. Edwards, C. Oborne, D. Webster, M. Klenerman, Corros. Sci. 36 (1994) 315. [ Links ]

4. Lj. Vračar, D. Draić, Corros. Sci. 44 (2002) 1669. [ Links ]

5. P. Kern, D. Landolt, J. Electrochem. Soc. 148 (2001) B228.

6. E.A. Noor, A.H. Al-Moubaraki, Materials Chemistry and Physics 110 (2008) 145.

7. NACE International, NACE Standard Test Method TM0177-2005 Item No. 21212.

8. J. Sobkowski, M. Szklarczyk, Electrochim. Acta 25 (1980) 383.

9. J. Sobkowski, A. Wieckowski, J. Electroanal. Chem. 34 (1972) 185.

10. A.V. Rudnev, E.B. Molodkina, A.I. Danilov, Y.M. Polukarov, A. Berna, J.M. Feliu, Electrochim. Acta 54 (2009) 3692.

11. Southampton Electrochemistry Group, Instrumental Methods in Electrochemistry, Ellis Horwood, 1985.

12. J.R. Macdonald and W.B. Johnson, In: E. Barsoukov, J.R. Macdonald, (eds) Impedance Spectroscopy Theory, Experiment and Applications, 2nd edn. John Wiley & Sons, Inc., New Jersey, 2005.

^*Corresponding author. E-mail address: delialf@pdvsa.com