Abstract
Results are given on the development of infusion with decreased curing temperature. Viscous and thermophysical characteristics are presented for the developed binder that has a curing temperature of 150°C. The physicomechanical characteristics of a hybrid composite material based on the developed binder are also presented.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
REFERENCES
E. N. Kablov, “Strategical areas of developing materials and their processing technologies for the period up to 2030,” Aviats. Mater. Tekhnol., No. 5, 7–17 (2012).
E. N. Kablov, “Modern materials as a basis for innovative modernization of Russia,” Met. Evrazii, No. 3, 10–15 (2012).
E. N. Kablov, “Formation of domestic space materials science,” Vestn. Ross. Fonda Fund. Issled., No. 3, 97–105 (2017).
P. N. Timoshkov, V. A. Goncharov, M. N. Usacheva, and A. V. Khrul’kov, “Effect of gaps and overlaps when laying prepregs on the mechanical properties of carbon plastics (review),” Tr. Vseross. Inst. Aviats. Mater., No. 12, 71–78 (2018).
Yu. A. Gusev and O. N. Tverdaya, “The effect of calendaring clearance on maintaining the strength characteristics of carbon fiber when impregnating a unidirectional prepreg,” Tr. Vseross. Inst. Aviats. Mater., No. 9, 61–67 (2020).
A. G. Zagora, S. V. Kondrashov, N. V. Antyufeeva, and A. A. Pykhtin, “Research of influence of technological modes of production of epoxy nanocomposites with carbon nanotubes on their heat resistance,” Tr. Vseross. Inst. Aviats. Mater., No. 1, 64–73 (2019).
D. A. Melnikov, M. A. Khaskov, M. A. Guseva, and N. V. Antyufeeva, “To the question of the development of pressing mode for laminated PCMs based on prepreg,” Tr. Vseross. Inst. Aviats. Mater., No. 2, 9 (2018).
V. V. Samoilenko, Candidate’s Dissertation in Engineering (Institute for Problems of Chemical and Energetic Technologies, Siberian Branch, Russian Academy of Sciences, Biysk, 2018).
M. S. Fedoseev, V. E. Antipin, L. F. Derzhavinskaya, M. G. Shcherban, and G. I. Shaidurova, “Preparation of heat-resistant epoxy anhydride compounds featured by long-term viability, of polymers and composites,” Vestn. Tver. Gos. Univ., Ser. Khim., No. 1, 120–133 (2017).
A. M. Ustinova, E. V. Oleinikova, V. A. Lipskaya, N. S. Belobrov, and A. N. Vorob’ev, “Fast curing epoxy binder,” Plast. Massy, No. 3, 34–42 (1983).
A. N. Kudryavtseva, I. V. Terekhov, Ya. M. Gurevich, and K. N. Grigoreva, “Modification of epoxy resin system for composite materials with resorcinol,” Tr. Vseross. Inst. Aviats. Mater., No. 2, 35–42 (2019).
E. A. Veshkin, V. I. Postnov, V. V. Semenychev, and E. V. Krasheninnikova, “Research of microhardness and sclerometric characteristics of the binding UP-2227N, cured by different regimes,” Aviats. Mater. Tekhnol., No. 1, 39–45 (2018).
V. N. Mosiyuk and O. V. Tomchani, “Evaluation of properties of glass-fibre-reinforced plastics based on epoxybismaleimide resin, produced by different non-autoclave molding techniques,” Aviats. Mater. Tekhnol., No. 2, 47–52 (2019).
R. A. Satdinov, S. E. Istyagin, and E. A. Veshkin, “Analysis of the temperature-time parameters mode curing PCM with specified characteristics,” Tr. Vseross. Inst. Aviats. Mater., No. 3, 9 (2017).
E. D. Kolpachkov, A. O. Kurnosov, A. P. Petrova, and A. E. Raskutin, “Gibridnye kompozitsionnye materialy dlya aviatsii na osnove voloknistykh napolnitelei (obzor),” Vopr. Materialoved., No. 1 (2020).
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated by N. Saetova
Rights and permissions
About this article
Cite this article
Kolpachkov, E.D., Gurevch, Y.M., Kurnosov, A.O. et al. Characteristics of Glass–Fiber-Reinforced Plastics Based on Binders with Decreased Curing Temperature. Polym. Sci. Ser. D 15, 79–82 (2022). https://doi.org/10.1134/S1995421222010130
Received:
Revised:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1134/S1995421222010130