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Study of heat resistance of epoxy matrix modified by phthalimide for protection of vehicles

НазваStudy of heat resistance of epoxy matrix modified by phthalimide for protection of vehicles
Назва англійськоюStudy of heat resistance of epoxy matrix modified by phthalimide for protection of vehicles
АвториAndriy Buketov; Alexander Sharko; Tatiana Cherniavska; Tatiana Ivchenko; Vitaly Yatsyuk; Ihor Okipnyi
ПринадлежністьKherson State Maritime Academy, Kherson, Ukraine Ternopil Scientific Research Forensic Center of the Ministry of Internal Affairs of Ukraine, Ternopil, Ukraine Ternopil Ivan Puluj National Technical University, Ternopil, Ukraine
Бібліографічний описStudy of heat resistance of epoxy matrix modified by phthalimide for protection of vehicles / Andriy Buketov; Alexander Sharko; Tatiana Cherniavska; Tatiana Ivchenko; Vitaly Yatsyuk; Ihor Okipnyi // Scientific Journal of TNTU. — Tern. : TNTU, 2020. — Vol 99. — No 3. — P. 93–101.
Bibliographic description:Buketov A.; Sharko A.; Cherniavska T.; Ivchenko T.; Yatsyuk V.; Okipnyi I. (2020) Study of heat resistance of epoxy matrix modified by phthalimide for protection of vehicles. Scientific Journal of TNTU (Tern.), vol 99, no 3, pp. 93–101.
DOI: https://doi.org/10.33108/visnyk_tntu2020.03.093
УДК

667.64:678.026

Ключові слова

epoxy composite, heat resistance, thermal coefficient of linear expansion, glass transition temperature.

The perspectives of using new modified polymer-based materials for the restoration of vehicle parts are substantiated in this article. The use of binders based on epoxy diane oligomers is proved to be promising in the formation of anti-corrosion coatings. To improve the properties of epoxy matrices at the preliminary stage of their formation, active additives are introduced. The use of a phthalimide modifier, which contains functional groups active before interfacial interaction, is proved to be promising as well. An epoxy diane oligomer is selected as the binder‘s main component in the formation of composites. The hardener polyethylene polyamine is used for crosslinking the epoxy compositions. It allows to harden materials at room temperatures. The choice of a phthalimide modifier for the improvement of thermophysical properties of the developed materials is substanciated. Heat resistance (according to Martens), glass transition temperature and thermal coefficient of linear expansion of modified epoxy composites are studied. To form a composite material or protective coating with improved thermophysical properties, the modifier phthalimide in the amount of q = 0.25… 0.50 pts. wt. at q = 100 pts. wt. of epoxy oligomer ED-20 should be introduced into the epoxy binder. Based on the tests of thermophysical properties of phthalimide-modified materials, the allowable temperature limits, at which it is possible to use the developed composites, are found.

 

ISSN:2522-4433
Перелік літератури
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References:
  1. Taher A. A. Fyzyko-khymyya polymerov. M.: Nauchnyy myr, 2007. 573 р.
  2. Vilensʹkyy V. O., Demchenko V. L., Kercha YU. YU., Shut M. I. Doslidzhennya termomekhanichnykh ta teplofizychnykh vlastyvostey nanokompozytiv na osnovi poliepoksydu ta dyspersnykh napovnyuvachiv riznoyi pryrody. Fizyka kondensovanykh vysokomolekulyarnykh system. 2009. Vyp. 13. Р. 18–23.
  3. Kocherhyn YU. S., Kulyk T. A., Hryhorenko T. Y. Kleevye kompozytsyy na osnove modyfytsyrovannykh époksydnykh smol. Plastycheskye massy. 2005. No. 10. Р. 9–16.
  4. Voronkov A. H., Yartsev V. P. Époksydnye polymerrastvory dlya remonta y zashchyty stroytelʹnykh yzdelyy y konstruktsyy: uchebnoe posobye. Tambov: Yzd-vo Tamb. hos. tekhn. un-ta, 2006. 92 р.
  5. Buketov A. V., Nehrutsa R. YU., Yatsyuk V. M. Vplyv modyfikatora 2,4-dyaminoazobenzol-4'- karbonovoyi kysloty na adheziyni vlastyvosti ta zalyshkovi napruzhennya zakhysnykh polimernykh pokryttiv. Naukovi notatky. Lutsʹk: LNTU. Vyp. 65. 2019. Р. 30–38.
  6. Buketov A. V., Smetankyn S. A. Vlyyanye modyfykatora 4,4-sulʹfonylbys (4,1-fenylen)bys(n,n-dyétyldytyokarbamata) na adhezyonnye svoystva époksydnoy matrytsy. Mekhanyka kompozytsyonnykh materyalov y konstruktsyy. 2018. Vol. 24. No. 2. Р. 242–265.
  7. Buketov A. V., Brayilo M. V., Yakushchenko S. V., Yatsyuk V. M. Rozroblennya epoksypoliefirnoyi matrytsi z polipshenymy adheziynymy ta fizyko-mekhanichnymy vlastyvostyamy zi zastosuvannyam izotsianatnoho modyfikatora. Fizyko-khimichna mekhanika materialiv. 2019. 55. No. 2. Р. 31–36.
  8. Buketov A. V., Stukhlyak P. D., Levytsʹkyy V. V., Dolhov M. A. Doslidzhennya epoksykompozytiv, shcho mistyatʹ modyfikovani olihomeramy napovnyuvachi. Visnyk TDTU. 2004. No. 2. Р. 52–59.
  9. Buketov A. V., Stukhlyak P. D., Dolhov M. A. Doslidzhennya povedinky epoksykompozytnykh pokryttiv v umovakh napruzheno-deformovanoho stanu pislya yikh UF-oprominennya i mahnitnoyi obrobky. Visnyk TDTU.2004. No. 4. Р. 36–45.
  10. Stukhlyak P. D. Antifriction and adhesive properties of coatings of thermosetting plastics modified with thermoplastic polymers. Soviet Journal of Friction and Wear (English translation of Trenie i Iznos), 1986, 7(1), pp. 138–141.
  11. Stukhlyak P. D.Bliznets M. M. Wear resistance of epoxyfuran composites modified with polyvinyl alcohol. Soviet Journal of Friction and Wear (English translation of Trenie i Iznos), 1987, 8(3), pp. 122–124.
  12. Sperling L. Vzaimopronikayuschie polimernyie setki i analogichnyie materialyi, per. s angl. N. V. Kovyirshinoy. M.: Mir, 1984. 327 р.
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