employee
Russian Federation
This paper presents data on the development of polymer composites by hot pressing based thermoplastic elastomers and the effect of pressure and compressing the mixture a filler matrix final physical and mechanical characteristics of the highly filled composites. The paper deals with the pressure range from 100 MPa to 1 GPa. Composite studied parameters depending on the pressure, density and were tensile strength. Studies conducted for the optimal composite composition comprising a thermoplastic elastomer, 30% and 70% of fine filler lung - dimethylpolysiloxane of silica gel. It has been shown that increasing the value of specific pressure of 200 to 800 MPa, the density of the composite is increased by 10% or more is not changed. By increasing the value of the specific pressure of 200 to 700 MPa tensile strength is increased by 5%. The paper found that with increasing pressure ranging from 700 MPa, the tensile strength does not change in tension, and the curve flattens out. From conducted research on the impact of compaction pressure on the final physical and mechanical characteristics of the highly filled composites can be argued that for the synthesis of the composite with the best features you want to use compression pressure of at least 800 MPa.
thermoplastic elastomers, hot pressing method, the dynamic vulcanization method, compression of solids
1. Karpov, Ya.S. Kompozitsionnye materialy: komponenty, struktura, pererabotka v izdeliya / Ya.S. Karpov, O.V. Ivanovskaya. - Khar´kov: Izd-vo Nats. aerokosm. un-ta, 2001. - 153s.
2. Kalashnikov I.E., Bolotova L.K., Kobeleva L.I. Poluchenie kompozitsionnykh materialov na osnove babbita b83 metodom goryachego pressovaniya. V sbornike: Sovremennye nauchnye issledovaniya: teoreticheskiy i prakticheskiy aspekt, Sbornik statey Mezhdunarodnoy nauchno-prakticheskoy konferentsii. Otvetstvennyy redaktor: Sukiasyan Asatur Al´bertovich. 2016. S. 49-52.
3. Kol´tsova T.S., Shakhov F.M., Voznyakovskiy A.A., Lyashkov A.I., Tolochko O.V., Nasibulin A.G., Rudskoy A.I., Mikhaylov V.G. Poluchenie kompaktnogo materiala alyuminiy--uglerodnye nanovolokna metodom goryachego pressovaniya . Zhurnal tekhnicheskoy fiziki. 2014. T. 84. № 11. S. 47-51.
4. Gorbacheva T.E., Galunov N.Z., Lazarev I.V., Kosinov N.N., Vyagin O.G., Malyukin Yu.V. Stsintillyatsionnye svoystva i osobennosti struktury polikristallov stil´bena, poluchennykh metodom goryachego pressovaniya. Zhurnal prikladnoy spektroskopii. 2014. T. 81. № 1. S. 165-168.
5. Kul´kov S.N., Gnyusov S.F., Mel´nikov A.G., Sevost´yanova I.N. Struktura i svoystva molibdena, poluchennogo metodom goryachego pressovaniya . Perspektivnye materialy. 2004. № 1. S. 81-85.
6. Glazov G.A. Skobnikov K.M. Tekhnologiya metallov i drugikh konstruktsionnykh materialov. - Izd-vo: L.: Mashinostroenie, 1972. 520 c.
7. Kolosov V.N., Orlov V.M. Vliyanie davleniya pressovaniya na prochnost´ i elektroprovodnost´ pressovok iz tantalovykh poroshkov. Tyazheloe mashinostroenie. 2007. № 10. S. 27-29.
8. Tret´yakov Yu.D., Oleynikov N.N., Granik V.A. Fiziko-khimicheskie osnovy termicheskoy obrabotki ferritov. - M.: MGU, 1973. - 200 s.
9. Prut E.V. Termoplastichnye elastomery: innovatsii i potentsial. Innovatika i ekspertiza. 2013. vypusk 1(10). S. 68-75.
10. Prut E.V., Nedorezova P.M., Klyamkina A.N., Medintseva T.I., Zhorina L.A., Kuznetsova O.P., Chapurina A.V., Aladyshev A.M. Blend polyolefin elastomers based on a stereoblock elastomeric PP. Polymer Science. Series A. 2013, Volume 55, Issue 3, pp. 177-185.
11. Prut E.V., Medintseva T.I., Kochanova O.V., Erina N.A., Zhorina L.A., Kuleznev V.N. Influence of cross-linked system on morphology and properties of thermoplastic vulcanizates based on isotactic polypropylene and ethylene propylene diene monomer. Journal of Thermoplastic Composite Materials. 2015, Vol. 28, No 8, 1202-1216.
12. Kalinin V. Termoplastichnye elastomery: osobennosti pererabotki. Plastiks №11 (93) 2010 S. 50-51.
13. Pavlenko V.I., Cherkashina N.I., Pavlenko Z.V. Sintez nanodispersnogo napolnitelya dlya polimernykh kompozitsionnykh materialov termoreguliruyushchego naznacheniya. Nanotekhnologii v stroitel´stve. 2016. Tom 8, № 5. S. 21-37.
14. Volodchenko A.A. Vliyanie davleniya pressovaniya na svoystva bezavtoklavnykh silikatnykh materialov na osnove glinistykh porod. Innovatsii v nauke: sb. st. po mater. XXXIII mezhdunarod. nauch.- prakt. konf. № 5(30). - Novosibirsk: SibAK, 2014.
15. Volodchenko A.A. Davlenie pressovaniya kak faktor povysheniya fiziko-mekhanicheskikh svoystv silikatnykh materialov na osnove peschano-glinistykh porod . Aktual´nye voprosy sovremennoy nauki. 2014. № 34. 158-167.