Dynamics of formation of during inhibition of steel by sulfanilamide in solutions of hydrochloric acid with different pH

Authors

  • I.M. Kurmakova T.Н. Shevchenko National University "Chernihiv Colehium"
  • O.S. Bondar T.Н. Shevchenko National University "Chernihiv Colehium"
  • I.V. Holub T.Н. Shevchenko National University "Chernihiv Colehium"
  • O.O. Коrolev State Scientific Research Institute of Armament and Military Equipment Testing and Certification

DOI:

https://doi.org/10.15330/pcss.22.3.432-436

Keywords:

acid corrosion, inhibition, structural steel, Sulfanilamide, polarization resistance

Abstract

Experimentally proved by the method of polarization resistance formation of protective layers during inhibition steel corrosion by Sulfanilamide in aqueous solutions of hydrochloric acid with different pH. It is shown the difference due to the predominance of the protonated or unprotonated form of the molecule. It was found that at predominance of protonated forms of molecules  (pH £2,4) formed dense protective films and predominance of unprotonated forms of molecules  (pH ³2,4) are formed layers that do not inhibit diffusion processes. Sulfanilamide provides high and stable inhibition efficiency (<90%) in acid chloride solutions in case of formation protective layers consisting of protonated molecules what to consider when use it.

References

V.G. Starchak, I.N. Kurmakova, Zh.V. Zamai, E.M. Novikova, A.M Demchenko, N.A. Kuzyna, Russian journal of applied chemistry 69(7), 987 (1996).

V.N. Chelyabieva, N.V. Smykun, I.N. Kurmakova, Protection of Metals 39(4), 353 (2003).

I.N. Kurmakova, S.V. Prikhod’ko, N.V. Smykun, A.P. Tretyak, Protection of Metals 39(4), 357 (2003).

A.M. Demchenko, K.G. Nazarenko, A.P. Makei, S.V. Prikhod’ko, I.N. Kurmakova, A.P. Tretyak, Russian journal of applied chemistry 77(5), 790 (2004); https://doi.org/10.1023/B:RJAC.0000038814.13877.49.

I.N. Kurmakova, S.V. Prykhodko, Bulletin of the National Technical University «KhPI»32, 88 (2008).

O.S. Bondar, S.V. Prykhod’ko, I.M. Kurmakova, O.L. Humenyk, Materials Science 47(3), 370 (2011).

І.М. Kurmakova, О.S. Bondar, V.I. Vorobyova, M.I. Skiba, S.V. Tkachenko, O.P. Makey, International Journal of Corrossion and Scale Inhibition, 7 (4), 582 (2018); https://doi.org/10.17675/2305-6894-2018-7-4-7.

Yu.P. Vyshnevska, T.Yu. Nyzhnyk, D.A. Tkalenko, I.M. Astrelin, Reports of the National Academy of Sciences of Ukraine 8, 121 (2008).

D.A. Tkalenko, G.Venkatesvaran, Yu.P. Vishevskaya, et al., Protection of Metals and Physical Chemistry of Surfaces, 46(5), 609 (2010).

Yu.S. Tsyrulova, D.A. Tkalenko, Yu.P. Vyshnevska, Yu.V. Savchenko, Issues of Chemistry and Chemical Technology 4(2), 263 (2011).

O.O. Korolev, O.S. Bondar, I.M. Kurmakova, O.I. Syza, Issues of Chemistry and Chemical Technology 3, 101 (2020); https://doi.org/10.32434/0321-4095-2020-130-3-101-107.

R. Yildiz, S. Toprak Döşlü, İ. Dehri, XV International Corrosion Symposium (Antakya, 2018); http://acikerisim.artuklu.edu.tr/xmlui/handle/20.500.12514/974.

D.A. Tkalenko, Yu.P. Vyshnevs’ka, Yu.S. Herasymenko, I.F. Khirkh-Yalan, Materials Science, 49, 304 (2013); https://doi.org/10.1007/s11003-013-9615-1.

Published

2021-08-01

How to Cite

Kurmakova, I., Bondar, O., Holub, I., & Коrolev O. (2021). Dynamics of formation of during inhibition of steel by sulfanilamide in solutions of hydrochloric acid with different pH. Physics and Chemistry of Solid State, 22(3), 432–436. https://doi.org/10.15330/pcss.22.3.432-436

Issue

Section

Scientific articles (Technology)