Fire safety of injection molding of thermoplastics and tpe material
Petrova G.N., Beider E.Ya., Perfilova D.N., Rumyantseva T.V. Fire safety of injection molding of thermoplastics and tpe material // Proceedings of VIAM. 2013. No. 11. URL: https://test.viam.ru/en/journal/2013/11/2
Abstract
The article describes the operational and technological properties of thermoplastic molding compositions, including high heat resistance, and thermoplastic elastomers – a new class of polymers that combine the power of plastic deformation and rubber processing thermoplastics. Polymers designed to meet requirements of АП-25 for the production of flammability and smoke.
Reference list
- Gudimov M.M. Osnovnye svoystva termoplastov [Basic properties of thermoplastics] //Aviatsionnaya promyshlennost'. 1990. №1. S. 2–8.
- Perov B.V., Surnin E.G. Termoplastichnye polimernye materialy mnogofunktsional'nogo naznacheniya [Multifunctional thermoplastic polymer materials] /V sb. Aviatsionnye materialy. Izbrannye trudy «VIAM» 1932–2002. Yubileynyj nauchno-tehnicheskiy sbornik. M.: VIAM. 2002. S. 281–290.
- Ekardt G. Sostoyanie i perspektivy lit'ya pod davleniem izdeliy iz PM [Current state and trends of polymer products molding] //Polimernye materialy. 2007. №7. S. 16–24.
- Romashin A.G., Vikulin V.V., Muhin N.V. Progressivnye tehnologii i polimernye kompozitsionnye materialy dlya aviatsionnoy i raketno-kosmicheskoy tehniki HHΙ veka [Advanced technologies and polymer composite materials for aviation and aerospace engineering of XXI century] /V sb. Teoriya i praktika tehnologiy proizvodstva izdeliy iz kompozitsionnyh materialov i novyh metallicheskih splavov (TPKMM): Trudy Mezhdunarodnoy konf. M.: Znanie. 2004. S. 531–543.
- Graschenkov D.V., Chursova L.V. Strategiya razvitiya kompozitsionnyh i funktsional'nyh materialov [Development strategy of composite and functional materials] //Aviatsionnye materialy i tehnologii. 2012. №S. S. 231–242.
- Petrova G.N., Abakumova N.M., Rumyantseva T.V. i dr. Pozharobezopasnye lit'evye termoplasty [Fire-safe molding thermoplastics] //Plasticheskie massy. 2005. №1. S. 45–46.
- Yuldashev A.H. Kompozitsionnye polimernye materialy konstruktsionnogo naznacheniya v mashinostroenii [Structural polymer composite materials in the mechanical engineering] //Kompozitsionnye materialy. 2010. №4. S. 71–73.
- Geoff G. Plastics in defense and safety //Plast. Eng. 2011. V. 6. №9. R. 28–31.
- Xiong Huawei, Zhao Dongbo. Shihua jishu yu yingong //Petrochem. Technol and Appl. 2011. V. 29. №5. Р. 435–438.
- Patent 8026309 SShA; opubl. 27.09.2011.
- Petrova G.N., Beider E.Ya. Molding thermoplastic materials for aerospace industry – Chemistry and Materials Science //Russian Journal of General Chemistry. 2011. V. 81. №5. Р. 1008–1013.
- Petrova G.N., Beyder E.Ya. Pozharobezopasnye lit'evye termoplasty dlya aviakosmicheskoy tehniki [Fire-safe molding thermoplastics for the aerospace engineering] //Vse materialy. Entsiklopedicheskiy spravochnik. 2008. №8. S. 47–49.
- Mihaylin Yu.A. Termoustoychivye polimery i polimernye materialy [Thermally stable polymers and polymer materials]. SPb.: Professiya. 2006. S. 183–240.
- Hazova T.N. Sostoyanie rynka v proizvodstve polikarbonata [Market conditions in production of polycarbonate] //Mezhdunarodnye novosti mira plastmass. 2005. №1–2. S. 35, 36, 39.
- «Makrolon» kak faktor rosta Bayer v industrii polikarbonatov [Makrolon as the Bayer's growth factor in the industry of polycarbonates] //Chem. J. 2007. №2. S. 38–39.
- Petrova G.N. Napravlennaya modifikatsiya polisul'fonov i sozdanie na ih osnove lit'evyh i kompozitsionnyh materialov [Directional modification of polysulfones and formation of molding and composite materials on their basis]: Avtoref. dis. k.t.n. M.: VIAM. 2011. 27 s.
- Kravchenko T.P., Ermakov S.N., Kerber M.L., Kostyagina V.A. Nauchno-tehnicheskie problemy polucheniya kompozitsionnyh materialov na osnove konstruktsionnyh termoplastov [Scientific and technical problems of producing composite materials based on structural thermoplastics] //Plasticheskie massy. 2010. №10. S. 32–34.
- Bolduev V. Sovmeschaya nesovmestimoe [Combining the incompatible] //Plastiks. 2010. №4. S. 44–48.
- Petrova G.N., Rumyantseva T.V., Beyder E.Ya. Vliyanie modifitsiruyuschih dobavok na pozharobezopasnye svoystva i tehnologichnost' polikarbonata [Effect of modifying additives on fire-safe properties and processability of polycarbonate] //Trudy VIAM. 2013. №6. (elektronnyj zhurnal).
- Ermakov S.N., Kerber M.L., Kravchenko T.P. Himicheskaya modifikatsiya i smeshenie polimerov pri reaktsionnoy ekstruzii [Chemical modification and polymer blending in the process of reactive extrusion] //Plasticheskie massy. 2007. №10. S. 32–41.
- Petrova G.N., Beyder E.Ya., Chebotarev V.P. i dr. Regulirovanie svoystv polisul'fonov za schet modifikatsii [Polysulfones properties control through modification] //Plasticheskie massy. 2010. №12. S. 23–27.
- Mihaylin Yu.A. Pokazateli ognestoykosti PM i metody ih opredeleniya [Fire resistance criteria of polymer materials and methods for their determination] //Polimernye materialy. 2011. №8. S. 32–34.
- Shurkova E.N., Vol'nyj O.S., Izotova T.F., Barbot'ko S.L. Issledovanie vozmozhnosti snizheniya teplovydeleniya pri gorenii kompozitsionnogo materiala putem izmeneniya ego struktury [Study of the possibility for reducing the heat release by changing the composite structure during the burning process] //Aviatsionnye materialy i tehnologii. 2012. №1. S. 27–30.
- Kryzhanovskiy V.K., Burlov V.V. i dr. Tehnicheskie svoystva polimernyh materialov [Engineering properties of polymer materials] //Professiya. SPb. 2007. S. 35–37, 51–91, 174–182.
- Sudarushkin Yu.K., Gudimov M.M., Romanov D.S., Sokolov M.Yu. Primenenie lit'evyh polikarbonatov v aviapriborostroenii [Applications of molding polycarbonates for aircraft instrument engineering] //Aviatsionnaya promyshlennost'. 2003. №2. S. 48–52.
- Petrova G.N., Beyder E.Ya. Lit'evye termoplastichnye materialy [Molding thermoplastic materials] /V sb. 75 let. Aviatsionnye materialy. Izbrannye trudy «VIAM» 1932–2007. M.: VIAM. 2007. S. 281–284.
- Petrova G.N., Barbot,ko S.L., Beider E.Ya., Bolotina L.M., Chebotarev V.P. Fire resistance properties of Polysulphones //International Polymer science and Technology. 2005. V. 32. №9. Р. 55–59.
- Dzheffri Holden, Hans R. Krihel'dorf, Roderik P. Kuirk. Termoelastoplasty [Thermoelastoplastics]: Per. s angl. SPb.: Professiya. 2011. S. 661–712.
- Evropeyskiy rynok termoplastichnyh elastomerov i sovremennye tendentsii [The European market of thermoplastic elastomers and current trends] //Promyshlennoe proizvodstvo i ispol'zovanie elastomerov. 2010. №3. S. 29–34.
- Polyurethane fiber containing poly (vinylidene fluoride): pat. TW470792 – TORAY DU PONT KK [JP] 01.01.2002.
- Halturinskiy N.A., Novikov D.D., Zhorina L.A. i dr. Vliyanie bromsoderzhaschih antipirenov na svoystva termoelastoplastov na osnove polipropilena i etilenpropilendienovogo kauchka [An effect of Br-bearing fire retardants on the properties of thermoplastic elastomers on the basis of polypropylene and ethylene-propylene rubber resin] //Perspektivnye materialy. 2010. №6. S. 68–71.
- Novokshonov V.V., Musin I.N., Kimel'blat V.I. Optimizatsiya svoystv maslostoykih termoplastichnyh elastomernyh kompozitsiy [Optimization of properties of oil resistant thermoplastic elastomeric compositions] //Plasticheskie massy. 2009. №3. S. 24–27.
- Nudel'man Z.N. Ftorkauchuki. Osnovy. Pererabotka. Primenenie. Reklama–Master [Fluoroelastomers. Fundamentals. Processing. Applications. Reklama-Master]. 2006. S. 40, 41, 170, 209, 210, 235, 237, 239.
- Petrova G.N., Perfilova D.N. i dr. Termoplastichnye elastomery dlya zameny rezin [Thermoplastic elastomer for the substitution of rubbers] //Aviatsionnye materialy i tehnologii. 2012. №S. S. 302–308.
- Petrova G.N., Perfilova D.N., Rumyantseva T.V., Beyder E.Ya. Samozatuhayuschie termoelastoplasty [Self-extinguishing thermoelastoplastics] //Plasticheskie massy. 2013. №2. S. 5–7.
- Dushin M.I., Hrul'kov A.V., Muhametov R.R. Vybor tehnologicheskih parametrov avtoklavnogo formovaniya detaley iz polimernyh kompozitsionnyh materialov [Selected technological parameters for the autoclave molding of polymer composites materials] //Aviatsionnye materialy i tehnologii. 2011. №3. S. 20–26.
