Аннотация:
Carbon–carbon composites (C/C) were produced from carbon fiber reinforced phthalonitrile (CFRP) matrix composites in a two-step impregnation–carbonization procedure. After graphitization at 1800 °C, the obtained C/C composites demonstrated highly crystalline structure and properties characteristic of composites derived from phenolic matrix CFRP by the industrial procedure: d = 1.73 g cm−3, interlaminar shear strength was 14.1 MPa, compression strength was 139.8 MPa, and coefficient of friction was in the range 0.32–0.34.
Образец цитирования:
V. V. Aleshkevich, B. A. Bulgakov, Ya. V. Lipatov, A. V. Babkin, A. V. Kepman, “High performance carbon–carbon composites obtained by a two-step process from phthalonitrile matrix composites”, Mendeleev Commun., 32:3 (2022), 327–330
Образцы ссылок на эту страницу:
https://www.mathnet.ru/rus/mendc652
https://www.mathnet.ru/rus/mendc/v32/i3/p327
Эта публикация цитируется в следующих 13 статьяx:
V. E. Terekhov, O. S. Morozov, A. V. Babkin, A. V. Kepman, V. V. Avdeev, B. A. Bulgakov, Mendeleev Commun., 35:1 (2025), 112–115
Wenhui Yan, Xiaoming Sang, Xinggang Chen, Qian Jiang, Caizhen Peng, Tianfei Guo, “Phthalonitrile resins based on biomass vanillin with high storage modulus and good processing window”, High Performance Polymers, 2025
Abbas Daham, Abdeldjalil Zegaoui, Athar Ali Khan Gorar, Wang Zhicheng, Jun Wang, Guo Zhiyi, Zhong-cheng Pan, Wen-bin Liu, Mehdi Derradji, “Thermal Aging and Pyrolysis Behavior of hyperbranched polymers grafted carbon fibers reinforced Phthalonitrile/Cyanate Ester Blend Composites.”, Chinese Journal of Chemical Engineering, 2025
Boris A. Bulgakov, Ulrich S. Schubert, “Recent Advances and Prospects in High‐Performance Bio‐Based Phthalonitrile Resins”, Adv Funct Materials, 2024
Vladislav Aleshkevich, Oleg Morozov, Alexander Babkin, Alexey Kepman, Boris Bulgakov, “High-performance C/C composites derived from phthalonitrile matrix CFRP via a few cycles of vacuum-assisted impregnation-carbonization”, Composites Part A: Applied Science and Manufacturing, 182 (2024), 108201
Dengke Li, Han Zhao, Zhiyi Jia, Dianqiu Jia, Jianxin Rong, Huaijie Yan, Xiaoyan Yu, Qingxin Zhang, “Preparation of phthalonitrile resin/calcium sulfate whisker composites with enhanced wear and heat resistance”, High Performance Polymers, 2024
N. S. Eroshenko, V. E. Andreeva, O. A. Medennikov, N. V. Smirnova, “Electroconductive expanded graphite–polyimide composite”, Mendeleev Commun., 34:3 (2024), 342–344
I. V. Kutovaya, D. I. Poliakova, E. M. Erdni-Goryaev, Ya. V. Lipatov, E. S. Afanaseva, O. S. Morozov, A. V. Babkin, A. V. Kepman, “Enhancement of Crack Resistance of Phthalonitrile-Based Carbon Fiber Reinforced Plastics by Introducing Polyamide Nonwoven Materials”, Polym. Sci. Ser. B, 65:5 (2023), 672
Joon Hyuk Lee, Eunkyung Jeon, Jung-kun Song, Yujin Son, Jaeho Choi, “Optimizing curing agent ratios for high-performance thermosetting phthalonitrile-based glass fibers”, Science and Engineering of Composite Materials, 30:1 (2023)
I. V. Kutovaya, D. I. Poliakova, E. M. Erdni-Goryaev, Ya. V. Lipatov, E. S. Afanaseva, O. S. Morozov, A. V. Babkin, A. V. Kepman, “Enhancement of Crack Resistance of Phthalonitrile-Based Carbon Fiber Reinforced Plastics by Introducing Polyamide Nonwoven Materials”, Vysokomolekulârnye soedineniâ. Seriâ B, Himiâ polimerov, 65:5 (2023), 363
M.S. Lobanova, V.V. Aleshkevich, M.Yu. Yablokova, O.S. Morozov, A.V. Babkin, A.V. Kepman, V.V. Avdeev, B.A. Bulgakov, “Kinetics of the oxidative aging of phthalonitrile resins and their effects on the mechanical properties of thermosets”, Thermochimica Acta, 724 (2023), 179492
Daria Poliakova, Oleg Morozov, Yakov Lipatov, Alexander Babkin, Alexey Kepman, Viktor Avdeev, Boris Bulgakov, “Fast-Processable Non-Flammable Phthalonitrile-Modified Novolac/Carbon and Glass Fiber Composites”, Polymers, 14:22 (2022), 4975
M.V. Yakovlev, M.E. Kuchevskaia, V.E. Terekhov, O.S. Morozov, A.V. Babkin, A.V. Kepman, V.V. Avdeev, B.A. Bulgakov, “Easy processable tris-phthalonitrile based resins and carbon fabric reinforced composites fabricated by vacuum infusion”, Materials Today Communications, 33 (2022), 104738
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