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Abstract

In the modern world, widely used water-borne paints and varnishes form coatings with high resistance to the action of water and chemicals, good electrical insulation, physico-mechanical and decorative properties. Everyone knows they are used for painting radio and electrical products, in the automotive industry, agricultural machinery, in the production of household products and residential buildings.The article discusses the technical justification of research results for the practical use of silicon-containing flame retardants in the production technology of fire-retardant water-dispersion paint. The regulations and an effective technological scheme for the production of AP-1 silicon-containing oligomeric flame retardant and the technology for producing fire-retardant water-dispersion paint coating have been developed.The test method for modified fire-retardant water-dispersion coatings based on polyacrylic dispersion was carried out according to standard methods "Determination of the combustibility of fire retardants for wood" in accordance with GOST 16363-98, which includes methods for determining the combustibility, flammability of coatings, obtained in collaboration with Laboratory Institute of Fire Safety of the Ministry of Emergencies of the Republic of Uzbekistan.Based on the data presented, based on the results of studies on the modification of the properties of fire-retardant water-dispersion coatings with silicon-containing oligomeric flame retardants, new fire-resistant water-dispersion coatings with high physicomechanical, heat-resistant, and operational properties have been developed.The developed technological regulations and the condition for obtaining coatings by the modified proposed flame retardants proposed by the authors apply to the production of fire-retardant water-dispersion paints, which are a suspension of pigments and fillers in an aqueous dispersion of synthetic polymers with the addition of AP-4 flame retardant and various auxiliary substances according to TU 6.12-78-2000 , TU 6.12-28-96, produced by mixing components in mixers and dispersing pastes in bead mills.

First Page

84

Last Page

92

References

1. Nenaxov S.A., Pimenova V.P. Sovremennыe tendensii v razrabotke i primenenii ognezaщitnыx materialov. (Obzor trudov berlinskoy konferensii). //Nauch.-texn.j. Lakokrasochnaya promishlennost.- M., 2009. №7. S.7-10.

2. Krasheninnikova M.V. Ognezashitnie vspuchivayushiesya materiali na osnove organo-rastvorimыx plenkoobrazovateley. //Siryo, poluprodukti, materiali. 2000. №12. S.34.

3. Kurbanova M.A., Tillaev A.T., Djalilov A.T., Ismailov I.I. Razrabotka texnologii polucheniya kremniysoderjashix oligomernix antipirenov vzaimodeystviem metasilikata natriya s stearinovoy kislotoy i adduktom mochevini. //Ximiya i ximicheskaya texnologiya. –Tashkent, 2014. №3.S.39-43.

4.Kurbanova M.A., Djalilov A.T., Tillaev A.T. Issledovanie kremniy- i fosforsoderjashix oligomerov. //Aktualniye voprosi v oblasti texnicheskix i sotsialno-ekonomicheskix nauk. Resp.mejvuz.sb.-Tashkent, 2009.S.147-148.

5. Kurbanova M.A., Djalilov A.T., Tillaev A.T. Fiziko-mexanicheskie svoystva pokritiy s azot- i fosforsoderjashimi kremniyorganicheskimi antipirenami. //Aktualnie problemы ximii visokomolekulyarnix soedineniy. Materiali Respub. nauchno-prak.konf.- Buxara, 2010. S.76-78.

6.Kurbanova M.A., Djalilov A.T., Ismailov I.I., Valeeva N.G. Poluchenie ognezashitnix pokritiy s modifikatsiey P,N i Si soderjashimi soedineniyami. //Materialы resp.nauch.konf. «Naukapolimernix kompozitsionnix materialov i perspektivы ix proizvodstva v Uzbekistane». –Namangan,2015. S.137-139.

7.Babaxanova Z.A., Ruzimova SH.U., Turgunov SH.R. Ogneupornie grafitsoderjashie keramicheskie materialы v sisteme MgO-Al2O3-SiO2 // Universum: texnicheskie nauki. - Moskva. 2 (35) 2017.- C. 42-53.

8.Babaxanova Z.A., Aripova M.X., Ruzimova SH. Izuchenie fazoobrazovaniya v sisteme grafit-kaolin pri objige v inertnoy srede // Kimyo va kimyo texnologiyasi.-Tashkent. 2018. № 3.- C. 28-32.

9.Babaxanova Z.A. Sintez kompozitov s lyuminessentnimi svoystvami na osnove alyumosilikatov redkozemelьnыx elementov s ispolzovaniem kremniyorganicheskix soedineniy // Kompozitsionnыe materialы. –Tashkent. 2018. № 4.- C. 9-15.

10.Babakhanova Z. A., Aripova M. Kh. Highly Refractory Alumina-Periclase-Carbon Ceramic Materials Based on a Spinel Binder// Refractories and Industrial Ceramics. Springer Science+Business Media. - New York. 2019. Volume 59. No 5. - P-454-458. ttps://link.springer.com/article/10.1007/s11148-019-00253-w. Springer (11). IF - 0,59.

11. Nurkulov F.N., Djalilov A.T., Tadjixodjaev Z.A. Noviy ekologicheski bezopasniy ognezashitniy oligomerniy antipiren AR-110 dlya drevesnix materialov. //Materiali Respublikanskoy nauchno-prakticheskoy konferensii «Aktualnie problemi ximicheskoy nauki i innovatsionnie texnologii eyo obucheniya». –Tashkent, 30-31 mart 2016g. S.198.

12.Babaxanova Z.A., Aripova M.X., Ruzimova SH.U., Turgunov SH.R. Poluchenie shlakoustoychivix ogneupornix grafitsoderjashix keramicheskix materialov /«Fan-texnika, ta‟lim va texnologiyalar: dolzarb muammolar va rivojlanish tendensiyalari» ilmiy-texnik anjuman materiallari to„plami (2-qism). - Jizzax, 14-15 aprel 2017. - S. 65-68.

13. Samigov N.A., Djalilov A.T., Siddikov I.I., Maxkamov S.M., Nurkulov F.N., Samigov U.N., Jumaev S.K. Ognezaщita stroitelnix materialov s primeneniem oligomernogo antipirena. // Materialы respublikanskoy nauchno-texnicheskoy konferensii “O„zbekistonda qurilish texnologiyalari va ularni rivojlantirish masalalari». –Tashkent, TASI, 20-21 noyabrь.2015.S.55.

14.Ruzimova SH.U., Babaxanova Z.A. Modelirovanie ogneupornix sostavov v sisteme MgO-Al2O3-SiO2/Trudi XXVI-nauchno-texnicheskoy konferensii molodix uchenix, magistrantov i studentov bakalavriata «Umidli kimyogarlar-2017». - Tashkent, TXTI. 2017.- S.101-102.

15.Babakhanova Z., Aripova M. Ceramic Nanocomposites for the Needs of Metallurgy /Seventh Balkan Conference on Glass Science and Technology. 19th Conference on Glass and Ceramics. -Nessebar. Bulgariya. 01.10-04.10.2017.- P. 5.

16. Babakhanova Z., Sh.Ruzymova, Sh.Turgunov. Slag-Resistant Ceramic Composition. /Seventh Balkan Conference on Glass Science and Technology. 19th Conference on Glass and Ceramics. -Nessebar. Bulgariya. 01.10-04.10.2017.- P. 6.

17.Babakhanova Z., Gulyamova F., Abdusattarov Sh.M. Shortcrete with Refractory Compositions of Linings of Ovens /Sb. trudov nauchno-texnicheskoy konf. «Kimyo, neft-gazni va oziq-ovqat sanoatlari hamda neft-gaz qayta ishlashning innovatsion texnologiyalarini dolzarb muammolari». -Tashkent, 22-23 noyabr 2017. - S. 219-220.

18.Babakhanova Z.Slag-Resistant Ceramic Composition for Metallurgical Industry /Proceedings of International Conference Integrated Innovative Development of Zarafshan Region: Achievements, Challenges and Prospects. Volume I. - Navoi, Uzbekistan. October 26-27, 2017. - P. 321-323.

19.Babaxanova Z.A., Gulyamova F. Razrabotka ogneupornix kompozitsiy dlya metallurgicheskoy otrasli / Nauchno-texnicheskaya konferensiya «Ximiya i ximicheskaya texnologiya: dostijeniya i perspektivы». 27-28 Noyabrya 2018 g.-Kemerovo-S.102.1-102.3.

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