Features of application of polymer composite materials and structures in construction
DOI:
https://doi.org/10.33408/2519-237X.2024.8-4.398Keywords:
composite materials, fiberglass, combustibility, fire resistance, fire protection, experimental studies, fire hazard, critical temperatureAbstract
Purpose. To analyze the available experimental and theoretical studies to determine the fire hazard properties of polymer composite materials and structures, as well as the possibility of their application in construction.
Methods. Review, analysis and comparison of existing results of experimental and theoretical studies on the investigated subject.
Findings. The review was carried out and the main problems of application of polymer composite (fiberglass) materials and structures in the design and construction of buildings and structures were revealed. The results of domestic and foreign experimental and theoretical studies have been considered. The area of application of polymer composite (fiberglass) materials and structures with regard to fire safety requirements of normative documents in the field of construction is determined.
Application field of research. Design and construction of buildings and structures using polymer composite (fiberglass) materials and structures.
References
Khan F., Hossain N., Mim J.J., Rahman SM M., Iqbal Md. J., Billah M., Chowdhury M.A. Advances of composite materials in automobile applications – A review. Journal of Engineering Research, 2024. DOI: https://doi.org/10.1016/j.jer.2024.02.017.
Zelenskiy E.S., Kuperman A.M., Gorbatkina Yu.A., Berlin A.A., Ivanova-Mumzhieva V.G. Armirovannye plastiki – sovremennye konstruktsionnye materialy [Reinforced plastics – modern construction materials]. Rossiyskiy khimicheskiy zhurnal, 2002. Vol. 45, No. 2. Pp. 56–74. (rus). URL: https://www.chem.msu.su/rus/jvho/2001-2/56.pdf (date of access: October 2, 2024). (rus)
Badanina Yu.V., Baskakov V.D., Galinovskiy A.L., Nelyub V.A., Zarubina O.V., Malysheva G.V. Kompozitsionnye materialy v raketno-kosmicheskoy tekhnike [Composite materials in rocket and space techniques]: tutorial. Moscow: Bauman Moscow State Technical University, 2019. 40 p. (rus). ISBN: 978-5-7038-5136-4. EDN: https://elibrary.ru/MMVBAE.
Vasil'ev V.V. Kompozitnye materialy v aerokosmicheskoy tekhnike [Composite materials in aerospace techniques]. Vse Materialy. Entsiklopedicheskii Spravochnik, 2012. No. 7. Pp. 2–7. (rus). EDN: https://elibrary.ru/PAZTKP.
Barbot'ko S.L., Shurkova E.N, Vol'nyy O.S., Skrylev N.S. Otsenka pozharnoy bezopasnosti polimernykh kompozitsionnykh materialov dlya vneshnego kontura aviatsionnoy tekhniki [Evaluation of polymer composite fire-safety for the outer contour of aeronautical engineering]. Aviation Materials and Technologies, 2013. No. 1 (26). Pp. 56–59. (rus). EDN: https://elibrary.ru/PUOYAV.
Sun S., Yu Q., Yu B., Zhou F. New progress in the application of flame-retardant modified epoxy resins and fire-retardant coatings. Coatings, 2023. Vol. 13, Iss. 10. Article 1663. 23 p. DOI: https://doi.org/10.3390/coatings13101663.
Bondar' K.Ya., Ershov V.L., Solomenko M.G. Polimernye stroitel'nye materialy [Polymeric building materials]: reference manual. Moscow: Stroyizdat, 1974. 268 p. (rus)
Troitzsch J. Plastics flammability handbook: Principles, regulations, testing, and approval. Munich: Hanser Gardner Publications, 2004. 748 p.
Vasil'ev A.A. Defekty i povrezhdeniya stroitel'nykh konstruktsiy [Defects and damage of building structures]: tutorial. Gomel: Belarusian State University of Transport, 2012. 361 p. (rus). EDN: https://elibrary.ru/SKDNBB.
Barenblatt G.I. Gorenie i vzryv [Combustion and explosion]. Proc. of the Third All-Union Symposium on Combustion and Explosion, July 5-10, 1971. Academy of Sciences of USSR. Moscow: Nauka, 1972. Pp. 15–23. (rus)
Mikhaylin Yu.A. Teplo-, termo- i ognestoykost' polimernykh materialov [Heat, thermal and fire resistance of polymeric materials]. St. Petersburg: Nauchnye osnovy i tekhnologii, 2011. 416 p. (rus)
Konstantinova N.I., Smirnov N.V., Shebeko A.Yu. K voprosu ob otsenke effektivnosti ognezashchitnykh polimernykh materialov [Revisiting the assessment of polymeric materials fire protection efficiency] Fire and Explosion Safety, 2018. Vol. 27. No. 7–8. Pp. 32–42. (rus). DOI: https://doi.org/10.18322/pvb.2018.27.7-8.32-42. EDN: https://elibrary.ru/XYXVHN.
Bazhenov S.L., Berlin A.A., Kul'kov A.A., Oshmyan V.G. Polimernye kompozitsionnye materialy [Polymer composite materials]: monograph. Dolgoprudny: Intellekt, 2010. 352 p. (rus). ISBN 978-5-91559-045-7.
Ushkov V.A. Vosplamenyaemost' i dymoobrazuyushchaya sposobnost' polimernykh kompozitsi-onnykh materialov [Inflammableness and smoke-generating ability of polymer composite materials]. Vestnik MGSU, 2017. Vol. 12, No. 8 (107). Pp. 897–903. (rus). EDN: https://elibrary.ru/ZFBXXR.
Lomakin S.M., Zaikov G.E., Mikitaev A.K., Kochnev A.M., Stoyanov O.V., Shkodich V.F., Naumov S.V. Zamedliteli goreniya dlya polimerov [Combustion retardants for polymers]. Vestnik Kazanskogo tekhnologicheskogo universiteta, 2012. Vol. 15, No. 7. Pp. 71–86. (rus). EDN: https://elibrary.ru/LXNTRB.
Ushkov V.A. Razrabotka nauchnykh osnov polucheniya polimernykh stroitel'nykh materialov s ponizhennoy pozharnoy opasnost'yu [Development of scientific bases for obtaining polymeric building materials with reduced fire hazard]: Grand PhD tech. sci. diss. Synopsis: 05.16.09. Moscow State University of Civil Engineering (National Research University). Moscow, 2020. 46 p. (rus)
Zhirikova Z.M., Aloev V.Z., Tarchokova M.A. Ognestoykost' polimernykh materialov i sposoby ee povysheniya [Fire resistance of polymeric materials and methods of their improvements]. Izvestiya of Kabardino-Balkarian State Agrarian University named after V. M. Kokov, 2019. No. 3 (25). Pp. 43–48. (rus). EDN: https://elibrary.ru/MYEGQE.
Vlasenko F.S., Raskutin A.E. Primenenie polimernykh kompozitsionnykh materialov v stroitel'nykh konstruktsiyakh [Applying frp in building structures]. Trudy VIAM, 2013. No. 8. Article 3. EDN: https://elibrary.ru/RAEFMB.
Garashchenko A.N., Rudzinskiy V.P., Kaledin V.O. Obespechenie trebuemykh pokazateley pozharobezopasnosti konstruktsiy iz polimernykh kompozitsionnykh materialov s pomoshch'yu ognezashchity [Use of fire protection for reducing fire hazard of polymer composites and structures on their basis]. Izvestiya SFedU. Engineering Sciences, 2013. No. 8 (145). Pp. 143–149. EDN: https://elibrary.ru/RAJJBN.
Kodolov V.I. Goryuchest' i ognestoykost' polimernykh materialov [Flammability and fire resistance of polymer materials]. Moscow: Khimiya, 1976. 160 p. (rus)
Dudchenko A.A., Lur'e S.A., Obraztsov I.F. Anizotropnye mnogosloynye plastiny i obolochki [Anisotropic multilayer plates and shells]. Itogi nauki i tekhniki. Seriya: Mekhanika deformiruemogo tverdogo tela. Moscow: VINITI, 1983. Vol. 15. Pp. 3–68. (rus)
Petryuk I.P. Materialovedenie. Polimernye materialy i kompozity [Materials science. Polymer materials and composites]: tutorial: in 2 parts. Volgograd: Volgograd State Technical University, 2011. Part 1. 68 p. (rus). ISBN 978-5-9948-0852-8.
Romanenkov I.G., Levites F.A. Ognezashchita stroitel'nykh konstruktsiy [Fire protection of building structures]. Moscow: Stroyizdat, 1991. 320 p. (rus)
Albert C.M., Liew K.C. Recent development and challenges in enhancing fire performance on wood and wood-based composites: A 10-year review from 2012 to 2021. Journal of Bioresources and Bioproducts, 2024. Vol. 9, Iss. 1. P. 27–42. DOI: https://doi.org/10.1016/j.jobab.2023.10.004.
Golovanov V.I., Pavlov V.V., Pekhotikov A.V. Eksperimental'nye i analiticheskie issledovaniya ognestoykosti sploshnoy betonnoy plity so stal'noy i kompozitnoy armaturoy [Experimental and analytical researches into fire resistance of continuous concrete slab with steel and composite reinforcement]. Fire Safety, 2013. No. 2. Pp. 44–51. (rus). EDN: https://elibrary.ru/QZBNQX.
Shirko A.V., Kamlyuk A.N., Spiglazov A.V., Drobysh A.S. Opredelenie mekhanicheskikh svoystv kompozitnoy armatury s uchetom temperaturnogo vozdeystviya [Composite reinforcement strength and stiffness analysis in temperature field view]. Mechanics of machines, mechanisms and materials, 2015. No. 2 (31). Pp. 59–65. (rus). EDN: https://elibrary.ru/TWAIDH.
Kamlyuk A.N., Shirko A.V., Spiglazov A.V., Drobysh A.S. Vliyanie teplovogo vozdeystviya pozhara na mekhanicheskie svoystva kompozitnoy armatury [Influence of thermal effects of fire on mechanical properties composite reinforcement] Vestnik Komandno-inzhenernogo instituta MChS Respubliki Belarus', 2015. No. 2 (22). Pp. 4–11. (rus). EDN: https://elibrary.ru/UHHCAD.
Borisova T.A., Zinnurov T.A., Kuklin A.N. Issledovanie vliyaniya temperaturnogo vozdeystviya na rabotu stekloplastikovoy armatury v betonnykh konstruktsiyakh [Investigation of the influence of temperature impact on the work of fiberglass reinforcement in concrete structures]. News of the KSUAE, 2018. No. 2 (44). Pp. 136–144. (rus). EDN: https://elibrary.ru/XQCNJJ.
Aseeva R.M., Zaikov G.E. Snizhenie goryuchesti polimernykh materialov [Reducing the flammability of polymer materials]. Moscow: Znanie, 1981. 64 p. (rus)
Garashchenko A.N., Berlin A.A., Kul'kov A.A. Sposoby i sredstva obespecheniya trebuemykh pokazateley pozharobezopasnosti konstruktsiy iz polimernykh kompozitov (obzor) [Methods and means for providing required fire-safety indices of polymer composite structures]. Fire and Explosion Safety, 2019. Vol. 28, No. 2. Pp. 9–30. (rus). DOI: https://doi.org/10.18322/PVB.2019.28.02.9-30. EDN: https://elibrary.ru/FLHRNA.
Kablov V.F. Keybal N.A., Bondarenko S.N., Lobanova M.S., Garashchenko A.N., Zaikov G.E. Issledovanie effektivnosti ogneteplozashchitnogo vspuchivayushchegosya pokrytiya na osnove perkhlorvinilovoy smoly dlya stekloplastika [Investigation of the effectiveness of a fire-heat-protective swelling coating based on perchlorovinyl resin for fiberglass]. Vestnik Kazanskogo tekhnologicheskogo universiteta, 2013. Vol. 16, No. 13. Pp. 119–122. (rus). EDN: https://elibrary.ru/QLQCEZ.
Garashchenko A.N., Sukhanov A.V., Garashchenko N.A., Rudzinskiy V.P., Marakhovskiy S.S. Ognezashchita konstruktsiy iz polimernykh kompozitov i otsenka ee effektivnosti [Fire protection of structures made of polymer composites and evaluation of its effectiveness]. Fire and Explosion Safety, 2009. Vol. 18, No. 5. Pp. 15–24. (rus). EDN: https://elibrary.ru/KTYGMD.
Garashchenko N.A. Ognezashchita konstruktsiy iz polimernykh kompozitov i otsenka ee effektivnosti [Fire protection of structures made of polymer composites and evaluation of its effectiveness]. Fire and Explosion Safety, 2006. Vol. 15, No. 2. Pp. 12–16. (rus). EDN: https://elibrary.ru/HUIZXV.
Kudryashov V.A., Ivanov Yu.S., Drobysh A.S., Yatsukovich A.G. Metodika otsenki ognestoykosti polimernykh kompozitnykh materialov i parametrov neobkhodimoy ognezashchity [Methods of assessing the fire resistance of polymer composite materials and parameters of necessary fire protection]. Emergency Situations: Prevention and Elimination, 2015. No. 1 (37). Pp. 55–65. (rus). EDN: https://elibrary.ru/WDKVQH.
Pavlov V.V. Prochnost' konstruktsiy iz stekloplastikov pri povyshennykh i vysokikh temperaturakh [Strength of fiberglass structures at elevated and high temperatures]. Grand PhD tech sci. diss. synopsis: 01.02.06. Ufa State Technical Aviation University. Ufa, 2005. 32 p. (rus)
Kudryashov V.A., Drobysh A.S., Solov'yanchik A.M. Rezul'taty eksperimental'nykh issledovaniy ognestoykosti polimernykh kompozitnykh materialov, armirovannykh steklovoloknom [Results of experimental researches fire resistance of polymer composite materials reinforced with fiberglass]. Vestnik Komandno-inzhenernogo instituta MChS Respubliki Belarus', 2015. No. 1 (21). Pp. 17–24. (rus). EDN: https://elibrary.ru/TKPYGP.
Korol'chenko A.Ya., Garashchenko A.N., Garashchenko N.A., Rudzinskiy V.P. Raschety tolshchin ognezashchity, obespechivayushchikh trebuemye pokazateli pozharnoy opasnosti derevokleenykh konstruktsiy [Calculations of fire protection thicknesses providing the required fire hazard indicators of wood-glued structures]. Fire and Explosion Safety, 2008. Vol. 17, No. 3. Pp. 49–56. (rus). EDN: https://elibrary.ru/KNUAMJ.
Basakovich I.A., Botyan S.S., Zhamoydik S.M., Kudryashov V.A., Osyaev V.A., Palevoda I.I. Ognezashchitnaya effektivnost' gipsovykh plit Knauf Fireboard dlya vertikal'nykh stal'nykh profiley razlichnogo sortamenta [Knauf Fireboard fire protection efficiency for vertical steel profiles of various cross section shapes]. Journal of Civil Protection, 2019. Vol. 3, No. 3. Pp. 268–282. (rus). DOI: https://doi.org/10.33408/2519-237X.2019.3-3.268. EDN: https://elibrary.ru/JCWJCS.
Kudryashov V.A., Polevoda I.I., Drobysh A.S., Solov'yanchik A.M. Eksperimental'nye issledovaniya ognestoykosti polimernykh kompozitnykh konstruktsiy s ognezashchitoy [Experimental researches fire resistance of polymer composite structures with fire protection]. Vestnik Komandno-inzhenernogo instituta MChS Respubliki Belarus', 2016. No. 1 (21). Pp. 25–29. (rus). EDN: https://elibrary.ru/TKPYGZ.
Published
How to Cite
License
Copyright (c) 2024 Kudryashov V.A., Drobysh A.S.
This work is licensed under a Creative Commons Attribution-NonCommercial 4.0 International License.
