A. Samide,1,* A. Ciuciu,1 C. Negrila2
1University of Craiova, Faculty of Chemistry, Calea Bucuresti 107i, Craiova, Romania
2National Institute of Materials Physics, 077125 Magurele-Bucharest, Romania
DOI: 10.4152/pea.201006385
Abstract
The corrosion inhibition of stainless steel in 0.9% NaCl solution in presence of poly(vinyl alcohol) (PVA) is discussed according to electrochemical measurements, such as potentiodynamic polarization and electrochemical impedance spectroscopy (EIS).The morphology of the surface was analyzed using Scanning Electron Microscopy (SEM). The composition of the layer formed on stainless steel surface was estimated using X-ray Photoelectron Spectroscopy (XPS) technique. Electrochemical measurements indicated that the presence of PVA in NaCl solution decreases the corrosion current and increases the polarization resistance. The values of inhibition efficiency obtained from polarization curves and EIS measurements are in good agreement. In absence and in presence of PVA, SEM images showed that the stainless steel surface was covered with a non-uniform layer and a uniform adsorbed film, respectively. XPS analysis indicated that the surface layer consists of PVA containing a small amount of other elements, such as Na and Cl.
]]> Keywords: stainless steel; surface analysis; electrochemical measurements; SEM; XPS.
Full text only available in PDF format.
Texto completo disponível apenas em PDF.
References
1. M. Zhao, J.C. Li, Q. Jiang, Protect. Met. 39 (2003) 595-596. 10.1023/B:PROM.0000007855.73729.3b
2. S.S. Mahmoud, M.M. Ahmed, Port. Electrochim. Acta 25 (2007) 237-248. 10.4152/pea.200702237 [ Links ]
3. H. Wang, L. Niu, Q. Hong, Su X. Wu, Feng Hua Wei, Chinese Chem. Let. 15 (2004) 486-496.
4. P. Herrasti, P. Ocón, A. Ibáñez, E. Fatás, J. Appl. Electrochem. 33 (2003) 533-542. 10.1023/A:1024431114822
]]> 5. D.P. Le, Y.H. Yoo, J.G. Kim, S.M. Cho, Y.K. Son, Corros. Sci. 51 (2009) 330-339. 10.1016/j.corsci.2008.10.0286. M. Finšgar, S. Fassbender, F. Nicolini, I. Milošev, Corros. Sci. 51(2009) 525-532. 10.1016/j.corsci.2008.12.006
7. Y. Jianguo, W. Lin, V. Otieno-Alego,D.P. Schweinsberg, Corros. Sci. 37 (1995) 975-983. 10.1016/0010-938X(95)00008-8
8. D. Schweinsberg, G. Hope, A. Trueman, V. Otieno-Alego, Corros. Sci. 38 (1996) 587-595. 10.1016/0010-938X(95)00148-D
9. A. Azioune, M. Marcozzi, V. Revello, J.-J. Pireaux, Surf. Interf. Anal. 39 (2007) 615-623. 10.1002/sia.2571
10. A.K. Dubey, G. Singh, Port. Electrochim. Acta 25 (2007) 221-235. 10.4152/pea.200702237
11. S. Rajendran, S.P. Sridevi, N. Anthony, A. John Amalraj, M. Sundaravadivelu, Anti-Corros. Meth. Mater. 52 (2005) 102-111. 10.1108/00035590510584816
12. S.A. Umoren, E.E. Ebenso, P.C. Okafor, O. Ogbobe, Pigment & Resin Tech. 35 (2006) 346-354. 10.1108/03699420610711353
13. S.A. Umoren, O. Ogbobe, E.E. Ebenso, U.J. Ekpe, Pigment & Resin Tech. 35 (2006) 284-291. 10.1108/03699420610692896
14. S.A. Umoren, E.E. Ebenso, P.C. Okafor, U.J. Ekpe, O. Ogbobe, J. Appl. Polym. Sci.103 (2007) 2810-2819. 10.1002/app.25446
]]> 15. S.A. Umoren, O. Ogbobe, P.C. Okafor, E.E. Ebenso, J. Appl. Polym. Sci. 105 (2007) 3363. 10.1002/app.2653016. E.E. Ebenso, U.J. Ekpe, S.A. Umoren, E. Jackson, O.K. Abiola, N.C. Oforka, J. Appl. Polym. Sci.100 (2006) 2889-2901. 10.1002/app.23505
17. C.C. Negrila, C. Logofatu, R.V. Ghita, C. Cotirlan, F. Ungureanu, A.S. Manea, M.F. Lazarescu, J. Crystal Growth 310 (2008) 1576-1589. 10.1016/j.jcrysgro.2007.11.001
18. R.V. Ghita, C. Logofatu, C. Negrila, C. Cotirlan, P. Ghita, A.S. Manea, M.F. Lazarescu, Phys.Status Solid A 204 (2007)1025-1032. 10.1002/pssa.200674107
19. V. Crist, Handbooks of Monochromatic XPS Spectra, XPS International LLC, 2004.
Acknowledgements
The authors thank for the financial support to the IDEI/Grant-Program, 422 / 2008 competition.
* Corresponding author. E-mail address: samide_adriana@yahoo.com
]]> Received 4 May 2010; accepted 4 June 2010 ]]>