Cycloaliphatic Epoxy Matrix in the Development of Anticorrosive Coatings Containing Various Modifying Additives

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The effect of the hardening conditions and the nature of the filler and the organic modifier on the physical and mechanical properties of coatings based on a cycloaliphatic epoxy matrix filled with muscovite mica and TiO2 has been studied. The dependence of the values of hardness and the wetting angle on the amount of polyetheramine hardener (20–50 wt %) has been presented. The effect of the nature of the hardener and additives of ground granite and SiO2 microspheres on the values of hardness, adhesion, and impact and bending strengths of the epoxy coating has been studied. Four optimal compositions of epoxy coatings for the study of thermal stability and anticorrosive properties have been determined. It has been shown that coatings containing oligoethoxysiloxanes as organic modifiers are characterized by low degree of corrosion protection.

作者简介

N. Golubeva

Grebenshchikov Institute of Silicate Chemistry, Russian Academy of Sciences, 199034, St. Petersburg, Russia; St. Petersburg State Technological Institute (Technical University), 190013, St. Petersburg, Russia

Email: kondratencko.iulia@yandex.ru
Россия, 199034, Санкт-Петербург, , наб. Макарова, 2; Россия, 190013, Санкт-Петербург, Московский пр., 26

Yu. Kondratenko

Grebenshchikov Institute of Silicate Chemistry, Russian Academy of Sciences, 199034, St. Petersburg, Russia

Email: kondratencko.iulia@yandex.ru
Россия, 199034, Санкт-Петербург, , наб. Макарова, 2

A. Ivanova

Grebenshchikov Institute of Silicate Chemistry, Russian Academy of Sciences, 199034, St. Petersburg, Russia

Email: kondratencko.iulia@yandex.ru
Россия, 199034, Санкт-Петербург, , наб. Макарова, 2

V. Ugolkov

Grebenshchikov Institute of Silicate Chemistry, Russian Academy of Sciences, 199034, St. Petersburg, Russia

Email: kondratencko.iulia@yandex.ru
Россия, 199034, Санкт-Петербург, , наб. Макарова, 2

O. Zagrebel’nyi

Grebenshchikov Institute of Silicate Chemistry, Russian Academy of Sciences, 199034, St. Petersburg, Russia

Email: kondratencko.iulia@yandex.ru
Россия, 199034, Санкт-Петербург, , наб. Макарова, 2

T. Kochina

Grebenshchikov Institute of Silicate Chemistry, Russian Academy of Sciences, 199034, St. Petersburg, Russia

编辑信件的主要联系方式.
Email: kondratencko.iulia@yandex.ru
Россия, 199034, Санкт-Петербург, , наб. Макарова, 2

参考

  1. Sorensen P.A., Kiil S., Dam-Johansen K. et al. // J. Coat. Technol. Res. 2009. V. 6. P. 135–176.
  2. Кочина Т.А., Кондратенко Ю.А., Шилова О.А. и др. // Физикохимия поверхности и защита материалов. 2022. Т. 58. № 1. С. 86–112.
  3. Turner G.P.A. Introduction to Paint Chemistry and Principles of Paint Technology. N.Y.: Chapman & Hall, 1988.
  4. Kalendova A. // Anti-corros. Meth. Mater. 1998. V. 45. P. 344–349.
  5. Gimeno M.J., Chamorro S., March R. et al. // Prog. Org. Coat. 2014. V. 77. P. 2024–2030.
  6. Ahmed N.M., Abdel-Fatah H.T.M. Chapter 15. Study on the Anticorrosive Behavior of New Hygiene Structured Pigment Based on Waste Core and Nano Shell in Alkyd Paints / In: Developments in Corrosion Protection // IntechOpen, London, United Kingdom, 2014.
  7. Johnson J.A., Heidenreich J.J., Mantz R.A. et al. // Prog. Org. Coat. 2003. V. 47. P. 432–442.
  8. Touazi Y., Abdi A., Leshaf A. et al. // Prog. Org. Coat. 2020. V. 139. Article № 105458.
  9. Михайлов М.М., Соколовский А.Н. // Изв. высш. уч. завед. Физика. 2007. Т. 50. № 7. С. 90–92.
  10. Gerasimova L.G., Maslova M.V., Shchukina E.S. // Materials. 2021. V. 14. Article № 3369.
  11. Кочина Т.А., Буслаев Г.С., Кондратенко Ю.А. // ФХС. 2020. Т. 46. № 1. С. 27–43.
  12. Солдатов М.А., Шереметьева Н.А., Калинина А.А. и др. // Изв. АН. Сер. Хим. 2014. № 1 С. 267–272.
  13. Givenchy E., Amigoni S., Martin C. et al. // Langmuir. 2009. V. 25. P. 6448–6453.
  14. Lin B., Zhou S. // Prog. Org. Coat. 2017. V. 106. P. 145–154.
  15. Bamane P.B., Jagtap R.N. //Colloid Interface Sci. Commun. 2021. V. 43. Article № 100444.
  16. Васнев В.А., Измайлов Б.А., Баранов О.В. и др. // Патент РФ 2531818. Заявл. 07.12.2011. Опубл. 27.10.2014 Бюл. № 30.
  17. Дирдорф А., Либе Х., Вакер А. и др. // Патент РФ 2006128576. Заявл. 16.12.2004. Опубл. 21.07.2005.
  18. Chojnowski J., Slomkowski S., Fortuniak W. et al. // J. Inorg. Organomet. Polym. 2020. V. 30. P. 56–68.
  19. Кондратенко Ю.А., Голубева Н.К., Иванова А.Г. и др. // ЖПХ. 2021. Т. 94. № 10–11. С. 1309–1319.
  20. Mattsson E. Basic Corrosion Technology for Scientists and Engineers. Ellis Horwood, 1989. 193 p.
  21. Маттссон Э. Электрохимическая коррозия / пер. со швед. под ред. Колотыркина Я.М. М.: Металлургия, 1991. 158 с.
  22. Семенова И.В., Флорианович Г.М., Хорошилов А.В. Коррозия и защита от коррозии / Под ред. Семеновой И.В. М.: Физматлит, 2002. 336 с.
  23. Tamura H. // Corrosion Science. 2008. V. 50. P. 1872–1883.
  24. Bahremand F., Shahrabi T., Ramezanzadeh B. // J. Hazard. Mater. 2021. V. 403. Article № 123722.
  25. Deyab M.A., El Bali B., Mohsen Q. et al. // Sci. Rep. 2021. V. 11. Article № 8182.
  26. Chhetri S., Samanta P., Murmu N. et al. // J. Compos. Sci. 2019. V. 3. Article № 11.

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版权所有 © Н.К. Голубева, Ю.А. Кондратенко, А.Г. Иванова, В.Л. Уголков, О.А. Загребельный, Т.А. Кочина, 2023