Composition based on alicyclic copolymide and polyethylene terephthalate

Keywords: arylalicyclic (co)polyimide, polyethylene terephthalate, composite films, hydrogen bonding, heat treatment

Abstract

The addition of polymers such as polyethylene terephthalate, polycarbonate and polyurethane to another high molecular weight compound often provides improvement of properties of initial polymerfilms. These compounds can be successfully applied for obtaining of composite films based on polyimides. In the present work, conditions of making polymer composite films with arylalicyclic structured copolyimides and influence of polyethylene terephthalate on them were studied. It was found that, addition of component from 0.5 to 2 wt.% provides retaining of the polymers’ compatibility in the composite. Films formed from solutions of these compositions are transparent, brittleness of the material is not observed and there were little changes in elasticity compared with original copolyimide film. FTIR studies showed that the formation of these polymer blends leads to the interaction of functional groups of the polymers with hydrogen bonds, which determine the blend components compatibility. It has been found that, upon additional heat treatment of the films no more than 250°C, intermolecular crosslinking partially occurs with formation of an oxygen bridge between the amide acids of copolyimide and the added component. Such crosslinking provides increase of heat resistance and strength of the film. It should be noted that, for carrying out extensive research, it is preferable to use a simple method of mechanical mixing for components.

References

1 Yudin VE, Bugrov AN, Didenko AL (2014) Polym Sci Ser B+ 56:576-583. Crossref

2 Meleshko TK, Sushchenko IG, Bogorad NN, Gofman IV, Svetlichnyi VM, et al (2009) Polym Sci Ser А+ 51:311-316. Crossref

3 Urrehman Sh, Li P, Zhou HW, Zhao XG, Dang GD, Chen ChH (2012) Polym Degrad Stabil 97:1581-1588. Crossref

4 Nikolaeva A, Gofman I, Yakimansky A, Ivankova EM, Abalov IV, Baranchikov AE, Ivanov VK (2020) Polymers-Basel 12:1952-1969. Crossref

5 Bayminov BA, Zabegaeva ON, Sapozhnikov DA, Vygodskii YaS (2021) INEOS OPEN 4(3):78-89. Crossref

6 Krut’ko ET, Prokopchuk NR (2013) Vestnik Volgogradskogo gosudarstvennogo universiteta Serija 10 Innovatcionnaia deiatel’nost’ 4:145-149. Crossref

7 Krutko ET, Prokopchuk NR, Globa AI (2017) Polymer materials and technologies [Polimernye materialy I tekhnologii] 3(1):33-46. (In Russian)

8 Novakov IA, Orlinson BS, Brunilin RV, Potaenkova EA (2011) Patent RF 2409599. Polyimides and copolyimides intended for the manufacture of hydrolytically and thermally stable polyimide materials [Poliimidyisopoliimidy, prednaznachennye dlya izgotovleniya gidroliticheskii termicheski ustojichivykh poliimidnykh materialov]. (In Russian)

9 Krut’ko ET, Globa AI, Galieva ZN, Zharskaya TA, Globa II (2008) Polyimide composition for protecting crystals of semiconductor devices and integrated circuits [Poliimidnaya kompozitsiya dlya zashchity kristallov poluprovodnikovyk hpriborov I integral’nykh skhem]. Patent RB 11322. (In Russian)

10 Kravtsova VD, Umerzakova MB, Korobova NE, Sarieva RB (2017) Russ J Appl Chem+ 90:1833-1839. Crossref

11 Kupper U, Markus K, Christan D, Iocobsen S, Wacsrode G, Klaus-Dieter K (2016) Polycarbonate-Merrschchtfolie. Patent Germany 102004046522.

12 Nishida K, Koshirai A, Takayama N, Mitsubishi Rayon CoLTD. (2010) Polycarbonate – base thermoplastic resin composition and process for producing the same. Patent USA 6852798.

13 Ax G, Briois I, Myard P (2015) Rohodia industrial yarns. Patent France 0311114.

14 Kravtsova VD, Umerzakova MB, Sarieva RB (2019) Modified alicyclic polyimides. [Modifitsirovannye alitsiklicheskie poliimidy]. Almaty, Kazakhstan. (In Russian). ISBN: 978-601-7052-26-3.53-70

15 Zhubanov BA, Umerzakova MB, Iskakov RM, Sarieva RB, Kayinarbaeva ZN (2015) News of the National Academy of Sciences of the Republic of Kazakhstan. Chemistry [Izvestiya NAN RK. Seriya khimicheskaya] 1:29-32. (In Russian)

16 Zhubanov BA, Iskakov RM, Sarieva RB, Abadie MJ (2007) Russ J Appl Chem+ 80:833-837. Crossref

17 Kravtsova VD, Umerzakova MB, Iskakov RM, Sarieva RB (2017) Basic Research. [Fundamental’nyye issledovaniya] 7:39-43. (In Russian)

18 Umerzakova MB, Kravtsova VD, Sarieva RB (2020) Russ J Appl Chem+ 93:1674-1679. Crossref

19 Gordon AJ, Ford RA (1972) The Chemist′s Companion A handbook of practical data, techniques, and references. Wiley, UK. ISBN-13: 978-0471315902

20 Gofman IV, Nikolaeva AL, Abalov IV, Ivan’kova EM, Kuntzman IV, et al (2020) Polym Sci Ser C+ 62:196-204. Crossref

21 Shin HI, Chang J-H (2020) Polymers-Basel 12:135-152. Crossref

22 Matseevich TA, Popova MN, Askadskiy AA (2015) Bulletin Mos. State Construction Univer. “Building Materials Science”. [Vestnik MGSU “Stroitelnoe materialovedenie”] 6:50-63. (In Russian). Crossref

23 (1977) Encyclopedia of Polymers. In 3 volumes. [Entsiklopediyapolimerov. V 3-kh tomakh]. Sov. Entsiklopediya, Moscow, USSR. Vol.3. P.109. (In Russian)

24 Kabanov VA, Semchikov YuD, Zubov VP (1987) Complex radical polymerization. [Kompleksno-radikal’nayapolimerizatsiya]. Khimiya, Moscow, USSR. (In Russian)
Published
2022-01-21
How to Cite
Umerzakova, M., Sarieva, R., Yespenbetov, A., & Kainarbayeva, Z. (2022). Composition based on alicyclic copolymide and polyethylene terephthalate. Chemical Bulletin of Kazakh National University, 104(1), 12-21. https://doi.org/https://doi.org/10.15328/cb1248