Закрепление нетоксичных антипиренов на поверхности полиэфирных волокон
DOI:
https://doi.org/10.33408/2519-237X.2019.3-2.107Ключевые слова:
адгезионные нанослои, коллоидные частицы, нетоксичные замедлители горения, огнестойкие полиэфирные волокна, аммонийные металлофосфатыАннотация
Установлены режимы формирования в спиртовых растворах хлорида олова реакционноспособных коллоидных наноразмерных частиц, обеспечивающих прочную привязку к полиэфирной матрице азот-фосфорсодержащего ингибитора горения. Установлено наличие химического взаимодействия компонентов антипирена с адгезионным подслоем соединений олова с формированием новых соединений и мостиковых связей.
Библиографические ссылки
Gimaditdinov R.N. Sovremennye podkhody k sposobam pridaniya ognezashchitnykh svoystv polimernym tekstil'nym materialam [Modern approaches to the methods for fireproofing properties of polymeric textile materials]. Vestnik Kazanskogo tekhnologicheskogo universiteta, 2013. No. 17. Pp. 116–118. (rus)
Taranukha Ya.A., Karateev A.M. Pridanie ognezashchitnykh svoystv tkanevym materialam na osnove natural'nykh i sinteticheskikh volokon [Fireproofing properties of fabric materials based on natural and synthetic fibers]. Integrated Technologies and Energy Conservation, 2006. No. 4. Pp. 37–42. (rus)
Perepelkin K.E. Goryuchest' tekstilya kak odna iz ego vazhneyshikh kharakteristik [The combustibility of textiles as one of its most important characteristics]. Fibre Chemistry, 2001. No. 5. Pp. 8–42. (rus)
Analiz struktury netkanykh poloten «Khollofayber» [Analysis of the structure of nonwoven fabrics «Hollofiber»], available at: http://www.thermopol.ru/thermopol.ru/chto-vnutri.html (accessed: April 5, 2019). (rus)
Zubkova N.S., Antonov Yu.S. Snizhenie goryuchesti tekstil'nykh materialov. Reshenie ekologicheskikh i sotsial'no-ekonomicheskikh problem [Reduced flammability of textile materials. Solving environmental and socio-economic problems]. Russian Journal of General Chemistry, 2002. Vol. 46, No. 1. Pp. 96–102. (rus)
Sabirzyanova R.N., Krasina I.V. Modifikatsiya tekstil'nykh materialov nizkotemperaturnoy plazmoy ponizhennogo davleniya [Modification of textile materials by low-temperature low-pressure plasma]. Vestnik Kazanskogo tekhnologicheskogo universiteta, 2012. No. 17. Pp. 56–62. (rus)
Tuchkova O.A., Gasalov V.S., Sabirzyanova R.N. Povedenie tekstil'nykh materialov pri vysokointensivnom nagreve [Behavior of textile materials during high-intensity heating]. Vestnik Kazanskogo tekhnologicheskogo universiteta, 2013. No. 22. Pp. 34–36. (rus)
Dusmetova G.I., Dzhakipbekova N.O., Sakibaeva S.A., Isa A.B., Sarsenbaeva A.U. Issledovanie tekhnologicheskikh parametrov ognezashchitnoy propitki tkanevykh materialov [Research of technological parameters of fire protection treatment of tissue materials]. Fundamental research, 2014. No. 6, Part 2. Pp. 243–245. (rus)
Gonoshilov D.G., Kablov V.F., Keybal N.A., Bondarenko S.N. Novye propitochnye ognezashchitnye sostavy na osnove fosfor-borosoderzhashchego oligomera poliakrilamida [New impregnating fire protective compounds based on phosphorus boron containing oligomer and polyacrylamide]. Fundamental research, 2011. No. 8, Part 3. Pp. 627–630. (rus)
Lisichkin G.V., Fadeev A.Yu., Serdan A.A., Nesterenko P.N., Mingalev P.G., Furman D.B. Khimiya privitykh poverkhnostnykh soedineniy [Chemistry of grafted surface compounds]. Ed. by G.V. Lisichkin et al. Moscow: Fizmatlit, 2003. 589 p. (rus)
Bogdanova V.V., Kobets O.I. Sintez i fiziko-khimicheskie svoystva fosfatov dvukh- i trekhvalentnykh metallov-ammoniya [Synthesis and physicochemical properties of Di- and trivalent metal-ammonium phosphates]. Russian Journal of Applied Chemistry, 2014. Vol. 87, No. 10. Pp. 1385–1399. (rus)
Reva O.V., Bogdanova V.V., Lukyanov A.S., Perevoznikov S.S., Andreeva T.N. Zavisimost' effektivnosti ognezashchity netkanogo poliefirnogo materiala ot khimicheskoy prirody azot i fosforsoderzhashchego antipirena [Dependence of fire proof efficiency of nonwoven polyester material from the chemical nature of nitrogen and phosphorus-containing flame retardant]. Journal of the Belarusian State University. Chemistry, 2017. No. 2. Pp. 85–93. (rus)
Reva O.V., Luk'yanov A.S., Arestovich D.N., Bogdanova V.V., Platonov A.S. The optimal composition of the surface preparation for polyester materials by the method of mathematical planning of the experiment. Journal of Civil Protection, 2018. Vol. 2, No. 1. Pp. 45–50. (rus)
Sviridov V.V., Vorob'eva T.N., Gaevskaya T.V., Stepanova L.I. Khimicheskoe osazhdenie metallov iz vodnykh rastvorov [Chemical precipitation of metals from aqueous solutions]. Ed. by V.V. Sviridov et al. Minsk: Universitetskoe, 1987. 270 p. (rus)
Mance A.M., Gaarenstroom S.W., Waldo R.A. Interactions of Electroless Catalysts with Ozonated Polymer Surfaces: Platability and X‐Ray Photoelectron Spectroscopy Studies. J. Electrochem. Soc., 1991. Vol. 138, No. 2. Рp. 417–421. DOI: 10.1149/1.2085601.
Sredstva ognezashchitnye. Obshchie tekhnicheskie trebovaniya i metody ispytaniy: STB 11.03.02-2010 [Means fireproof. General technical requirements and test methods. Standard of Belarus 11.03.02-2010]. Affirmed January 01, 2011. Minsk: The State Committee for Standardization of the Republic of Belarus, 2011. 25 p. (rus).
Nefedov V.I. Rentgenoelektronnaya spektroskopiya khimicheskikh soedineniy [X-Ray Electron Spectroscopy of Chemical Compounds]: directory. Ed. by V.I. Nefedov. Moscow: Chemistry, 1984. 256 p. (rus)
Sikh M.P., Briggs D., Riv'er Dzh. K., Khofman S. Analiz poverkhnosti metodami Ozhe- i rentgenovskoy fotoelektronnoy spektroskopii [Surface analysis by Auger and X-ray photoelectron spectroscopy]. Moscow: Mir, 1987. 600 p. (rus)
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