INHIBITING PROPERTIES OF CONJUGATED UNSATURATED KETONES IN THE ACIDIC MEDIUM


Cite item

Full Text

Abstract

Corrosion inhibitors are effective against corrosion in various aggressive environments. The actual scientific task is the search for the relationship between the molecules structure and their inhibiting properties. The authors studied the inhibiting properties of some cross-conjugated and linearly conjugated enynones in the process of protection of carbon steel against corrosion in the 1M chlorohydric acid medium using various methods. The electrochemical study was carried out on the complex of potentiostat and impedancemeter devices with the software developed by the A.N. Frumkin Institute of Physical Chemistry and Electrochemistry of the RAS, Moscow. The experiments were conducted in the standard electrochemical cell. The edge of carbon steel cylinder, the side surface of which is isolated from the corrosive environment exposure, was used as the working electrode. The experiments were carried out at ambient temperature. The surface tension was investigated by the Rehbinder method (the method of maximum pressure in the air bubble) using the special laboratory facility. The data of electrochemical impedance spectroscopy of the compounds studied allowed determining the equivalent circuit of the corrosion process and the effectiveness of protective action. The potentiodynamic methods at the medium and large overstresses gave the information about the mechanism of corrosion protection and the effectiveness of corrosion currents reduction. The functional substituents in the benzene ring influence the mechanism of inhibition and the efficiency of the protective action. The experimental substances have mixed and cathode mechanism of the protective action. All studied compounds showed the satisfactory and good inhibiting activity. The method of determining the surface activity of the solutions in the corrosive environment did not identify any strict relationship between the surface activity of inhibitors at the “solution – electrolyte” interface and the ability to inhibit iron corrosion within the acidic medium. However, the authors identified the relationship between the inhibiting effect and the dipole moment of the molecules under the study, which was obtained by the calculation method based on the results of quantum chemical calculations.

About the authors

Pavel Aleksandrovich Glukhov

Togliatti State University, Togliatti

Author for correspondence.
Email: pavglukhov@yandex.ru

PhD (Chemistry), assistant professor of Chair “Chemistry, Chemical Processes and Technologies”

Russian Federation

Nikolay Aleksandrovich Kalinnikov

Togliatti State University, Togliatti

Email: fake@neicon.ru

student

Russian Federation

References

  1. Kim Ya.R., Tsygankova L.E., Kichigin V.I. Ingibition of corrosion and hydrogenation of steel in model pool waters. Korroziya: materialy, zashchita, 2005, no. 8, pp. 30–37.
  2. Gonik A.A. Colloid-electrochemical fundamentals of protective action of corrosion inhibitors with SAS diphyl structure in heterogeneous system of oil-water. Praktika protivokorrozionnoy zashchity, 2002, no. 2, pp. 13–21.
  3. Bentiss F., Traisnel M., Vezin H., Lagrenee M. Linear resistance model of the inhibition mechanism of steel in HCl by triazole and oxadiazole derivatives: structure–activity correlations. Corrosion Science, 2003, vol. 45, no. 2, pp. 371–380.
  4. Khaled K.F., Al-Nofai N.M., Abdel-Shafi N. S. QSAR of corrosion inhibitors by genetic function approximation, neural network and molecular dynamics simulation methods. Journal of Material and Environmental Science, 2016, vol. 7, no. 6, pp. 2121–2136.
  5. Swinkels D.A.J., Bockris J.O. Adsorption of n-decylamine on solid metal electrodes. Journal of Electrochemical Society, 1964, vol. 111, no. 6, pp. 736–743.
  6. Vigdorovich V.I., Sinyutina S.E., Tsygankova L.E., Oshe E.K. Effect of hydroxyethylated amines on the corrosion and hydrogenation of carbon steel. Protection of Metals, 2004, no. 3, pp. 282–294.
  7. Fakhretdinov P.S., Borisov D.N., Romanov G.V., Khodyrev Yu.P., Galiakberov R.M., Ziyatdinov A.Sh. The inhibition of the corrosion by amino- and ammonium compounds derived from α-olefins and oxyethylated nonylphenols. Elektronniy nauchniy zhurnal Neftegazovoe delo, 2008, no. 2, pp. 170–187.
  8. Utekhina N.V., Korzhova N.V., Kazantseva V.M., Surov Yu.N., Orlov V.D., Korshunov S.P. 1,5-Diaryl-1-pent-4-yn-3-ones. Zhurnal organicheskoy khimii, 1988, vol. 24, no. 3, pp. 692–696.
  9. Voronova E.D., Golovanov A.A., Suponitsky K.Yu., Fedyanin I.V., Vologzhanina A.V. Theoretical Charge Density Analysis and Nonlinear Optical Properties of Quasi-Planar 1-Aryl(hetaryl)-5-phenylpent-1-en-4-yn-3-ones. Crystal Growth Design, 2016, vol. 16, no. 7, pp. 3859–3869.
  10. Golovanov A.A., Bekin V.V., Pisareva V.S., Latypova D.R., Dokichev V.A., Vologzhanina A.V. Synthesis of 1,5­disubstituted (Е)­pent­2­en­4­yn­1­ones. Russian Journal of Organic Chemistry, 2013, vol. 49, no. 9, pp. 1264–1269.
  11. Ostapenko G.I., Gloukhov P.A., Bunev A.S. Investigation of 2-cyclohexenylcyclohexanone as steel corrosion inhibitor and surfactant in hydrochloric acid. Corrosion Science, 2014, vol. 82, pp. 265–270.
  12. Ostapenko G.I., Gloukhov P.A., Bunev A.S., Rybalko E.A., Skachkov A.V. Investigation product of cyclohexanone condensation and amination as surfactant on air – hydrochloric acid interface. Vektor nauki Tolyattinskogo gosudarstvennogo universiteta, 2013, no. 1, pp. 64–67.
  13. Ostapenko G.I., Grigoryeva O.B., Gorovaya E.V. Fizicheskaya khimiya [Physical chemistry]. Togliatti, TGU Publ., 2012. 222 p.
  14. Obot I.B., Obi-Egbedi N.O. Theoretical study of benzimidazole and its derivatives and their potential activity as corrosion inhibitors. Corrosion Science, 2010, vol. 52, pp. 657–660.
  15. Roque J.M., Pandiyan T., Cruz J., Garcia-Ochoa E. DFT and electrochemical studies of tris(benzimidazole-2-ylmethyl)amine as an efficient corrosion inhibitor for carbon steel surface. Corrosion Science, 2008, vol. 50, pp. 614–624.
  16. Khaled K.F. Molecular simulation, quantum chemical calculations and electrochemical studies for inhibition of mild steel by triazoles. Electrochimica Acta, 2008, vol. 53, no. 9, pp. 3484–3492.
  17. Musa A.Y., Jalgham R.T.T., Mohamad A.B. Molecular dynamic and quantum chemical calculations for phthalazine derivatives as corrosion inhibitors of mild steel in 1 M HCl. Corrosion Science, 2012, vol. 56, pp. 176–183.
  18. Özkir D., Kayakirilmaz K., Bayol E., Gürten A.A., Kandemirl F. The inhibition effect of Azure A on mild steel in 1 M HCl. A complete study: adsorption, temperature, duration and quantum chemical aspects. Corrosion Science, 2012, vol. 56, pp. 143–152.
  19. Gece G. The use of quantum chemical methods in corrosion inhibitor studies. Corrosion Science, 2008, vol. 50, pp. 2981–2992.
  20. Donahue F.M., Nobe K. Theory of organic corrosion inhibitors: adsorption and linear free energy relationships. Journal of Electrochemical Society, 1965, vol. 112, no. 9, pp. 886–891.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Copyright (c)



This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies