Browse > Article
http://dx.doi.org/10.14773/cst.2018.17.5.203

Study of Chloride Corrosion Organic Inhibitors in Alkaline Pore Solution  

Cabrini, M. (University of Bergamo-Department of Engineering and Applied Sciences via MArconi)
Lorenzi, S. (University of Bergamo-Department of Engineering and Applied Sciences via MArconi)
Pastore, T. (University of Bergamo-Department of Engineering and Applied Sciences via MArconi)
Pellegrini, S. (University of Bergamo-Department of Engineering and Applied Sciences via MArconi)
Publication Information
Corrosion Science and Technology / v.17, no.5, 2018 , pp. 203-210 More about this Journal
Abstract
This paper compares the inhibition properties of aspartic and lactic acid salts with nitrite ions and their effect on critical chloride concentration. The tests were carried employing carbon steel specimens in saturated lime solution with varying pH in the range between13 to 13.6. The critical chloride concentration was estimated through multiple specimen potentiostatic tests at potentials in the usual range for passive rebar in the alkaline concrete of atmospheric structures. During tests, chloride salt was added every 48 h until all the specimens showed localized attacks. The cumulative distribution curves, i.e. the number of corroded specimens as a function of the chlorides concentration was obtained. Furthermore, IR spectra were recorded for the evaluation of the presence of the organic inhibitors on the passivity film. The results confirmed the inhibitory effect of 0.1M aspartate comparable with nitrite ions, at a similar concentration. Addition of calcium lactate did not result in an increase in the critical chloride concentration. However, the formation of a massive scale containing the substance that could reduce the corrosion propagation was observed.
Keywords
Rebar; Localized corrosion; Corrosion inhibitors; Chloride; Pore solution;
Citations & Related Records
연도 인용수 순위
  • Reference
1 B. Elsener, Corrosion Inhibitors for Steel in Concrete, State of the Art Report, p. 35, EFC Publications (2001).
2 T. A. Soylev and M. G. Richardson, Constr. Build. Mater., 22, 609 (2008)   DOI
3 M. Ormellese, M. Berra, F. M. Bolzoni, and T. Pastore, Cem. Concr. Res., 36, 536 (2006).   DOI
4 M. Collepardi, R. Fratesi, G. Moriconi, V. Corradetti, and L. Coppola, Use of nitrite salt as corrosion inhibitor admixtures in reinforced concrete structures immersed in sea-water, Proc. Int. RILEM Symp. on Admixtures for concrete, p. 279, Barcellona, Ed. Vazquez, Chapman and Hall, London (1990).
5 M. Cabrini, S. Lorenzi, and T. Pastore, Electrochim. Acta, 124, 156 (2014).   DOI
6 M. Cabrini, S. Lorenzi, and T. Pastore, La Metallurgia Italiana (J. Italian Metall.), 105, 21 (2013).
7 T. Pastore, M. Cabrini, L. Coppola, S. Lorenzi, P. Marcassoli, and A. Buoso, Mater. Corros., 62, 187 (2011).   DOI
8 C. L. Page, Nature, 258, 514 (1075).
9 G. K. Glass and N. R. Buenfeld, Corros. Sci., 39, 1001 (1997).   DOI
10 J. Tritthart and P. F. G. Banfill, Cem. Concr. Res., 31, 1093 (2001).   DOI
11 B. Weckler and H. Lutz, Eur. J. Solid State Inorg, Chem., 35, 531 (1998).   DOI
12 S. Savoye, L. Legrand, G. Sagon, S. Lecomte, A. Chausse, and R. Messina, Corros. Sci., 43, 2049 (2001).   DOI
13 D. A. Hausmann, Mater. Prot., 6, 19 (11).
14 V. K. Gouda, Br. Corros. J., 5, 198 (1970).   DOI
15 M. Alonso and M. Sanchez, Mater. Corros., 60, 631 (2009).   DOI
16 S. Goni and C. Andrade, Cem. Concr. Res., 20, 525 (1990).   DOI
17 S. Diamond, Cement and Concrete Aggregate, 8, 97 (1986).   DOI
18 T. Yonezawa, V. Ashworth, and R. P. M. Procter, Corrosion, 44, 489 (1988).   DOI
19 U. Angst and O. Vennesland, Concrete repair, rehabilitation and retrofitting II, pp. 311-317, Taylor & Francis Group, London (2009).
20 U. Angst, B. Elsener, C. K. Larsen, and O. Vennesland, Cement and Cem. Concr. Res., 39, 1122 (2009).   DOI
21 M. Ormellese, L. Lazzari, S. Goidanich, G. Fumagalli, and A. Brenna, Corros. Sci., 51, 2959 (2009).   DOI
22 D. J. Kalota and D. C. Silverman, Corrosion, 50, 138 (1994).   DOI
23 P. Garces, P. Saura, A. Mendez, E. Zornoza, and C. Andrade, Corros. Sci., 50, 498 (2008).   DOI
24 L. Valek, S. Martinez, D. Mikulic and I. Brnardic, Corros. Sci., 50, 2705 (2008).   DOI
25 M. Cabrini and T. Pastore, Proc. 15th International Corrosion Congress, p. 2481, Curran Associates Inc., Granada, Spain (2002).
26 C. Page, Proc. 9th Ninth European Symposium on Corrosion Inhibitors, University of Ferrara, Italy (2000).
27 V. Ngala, C. Page, and M. Page, Corros. Sci., 44, 2073 (2002).   DOI
28 M. Tullmin, L. Mammoliti, R. Sohdi, C. M. Hansson, and B. Hope, Cement Concrete and Aggregate, 17, 134 (1995).   DOI
29 C. L. Page, V. T. Ngala, and M. M. Page, Mag. Concr. Res., 52, 25 (2000).   DOI