Аннотация:
A novel low melting highly hydrolytically stable phthalonitrile monomer containing Ar–Si–O–Si–Ar bonds with Tg = 4°C exhibits good rheological properties. Its cured resin possesses high heat deflection temperature (Thd = 471°C) and demonstrates high thermal and thermooxidative stabilities (T5% = 503°C, TOS5% = 495°C, Yc = 76%) that are typical of phthalonitrile matrices.
Образец цитирования:
P. B. Dzhevakov, R. F. Korotkov, B. A. Bulgakov, A. V. Babkin, A. V. Kepman, V. V. Avdeev, “Synthesis and polymerization of disiloxane Si–O–Si-linked phthalonitrile monomer”, Mendeleev Commun., 26:6 (2016), 527–529
Образцы ссылок на эту страницу:
https://www.mathnet.ru/rus/mendc2269
https://www.mathnet.ru/rus/mendc/v26/i6/p527
Эта публикация цитируется в следующих 28 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
Jinghui Dong, Xiaoming Sang, Qian Jiang, Minjie Wu, Xinggang Chen, “Curing behavior and thermal properties of phthalonitrile resins derived from benzyl alcohol”, Polymer, 306 (2024), 127247
Ajit S. Singh, Vishal Das, Swati Chopra, Arvind Kr. Pandey, Eswara Prasad Namburi, Indian Institute of Metals Series, Novel Defence Functional and Engineering Materials (NDFEM) Volume 1, 2024, 37
Boris A. Bulgakov, Ulrich S. Schubert, “Recent Advances and Prospects in High‐Performance Bio‐Based Phthalonitrile Resins”, Adv Funct Materials, 2024
Muyao Gao, Qian Wu, Tianhao Li, Li Liu, Bing Li, Yujie Song, Ming Liu, “Rediscovering phthalonitrile resins: a novel liquid monomer towards high-performance resins”, Polym. Chem., 15:21 (2024), 2157
Yabin Zhang, Linyan Zhu, Jiaming Wang, Xuedong Wu, Wenhua Hou, Lishuai Zong, Jinyan Wang, Xigao Jian, “High-temperature wave-transparent and intrinsically flame-retardant phthalonitrile/quartz composite based on a straightforward hot-melt prepreg process”, Composites Science and Technology, 256 (2024), 110742
Muyao Gao, Tianhao Li, Wenjing Kong, Xun Sun, Li Liu, Bing Li, Yujie Song, Ming Liu, “Novel liquid phthalonitrile monomers towards high performance resin”, European Polymer Journal, 191 (2023), 112027
Daria I. Poliakova, Oleg S. Morozov, Sergey S. Nechausov, Ekaterina A. Afanaseva, Boris A. Bulgakov, Alexander V. Babkin, Alexey V. Kepman, Viktor V. Avdeev, “Fast curing phthalonitrile modified novolac resin: Synthesis, curing study and preparation of carbon and glass fibric composites”, Reactive and Functional Polymers, 181 (2022), 105450
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
Ting Wang, Abdul Qadeer Dayo, Zi-long Wang, Hui-min Lu, Cheng-yu Shi, Zhong-cheng Pan, Jun Wang, Heng Zhou, Wen-bin Liu, “Novel self-promoted phthalonitrile monomer with siloxane segments: synthesis, curing kinetics, and thermal properties”, New J. Chem., 46:9 (2022), 4072
B. A. Bulgakov, O. S. Morozov, I. A. Timoshkin, A. V. Babkin, A. V. Kepman, “Bisphthalonitrile-based Thermosets as Heat-resistant Matrices for Fiber Reinforced Plastics”, Polym. Sci. Ser. C, 63:1 (2021), 64
I. A. Timoshkin, V. V. Aleshkevich, E. S. Afanas'eva, B. A. Bulgakov, A. V. Babkin, A. V. Kepman, V. V. Avdeev, “Heat-Resistant Carbon Fiber Reinforced Plastics Based on a Copolymer of Bisphthalonitriles and Bisbenzonitrile”, Polym. Sci. Ser. C, 62:2 (2020), 172
Yuan Zu, Fengfeng Zhang, Dandan Chen, Lishuai Zong, Jinyan Wang, Xigao Jian, “Wave-transparent composites based on phthalonitrile resins with commendable thermal properties and dielectric performance”, Polymer, 198 (2020), 122490
Ke Li, Hua Yin, Kun Yang, Pei Dai, Ling Han, Riwei Xu, “Synthesis and properties of phthalonitrile-based resins containing spirocycle acetal”, High Performance Polymers, 2020
V. E. Terekhov, O. S. Morozov, E. S. Afanaseva, B. A. Bulgakov, A. V. Babkin, A. V. Kepman, V. V. Avdeev, “Fluorinated phthalonitrile resins with improved thermal oxidative stability”, Mendeleev Commun., 30:5 (2020), 671–673
V. E. Terekhov, A. A. Bogolyubov, O. S. Morozov, E. S. Afanaseva, B. A. Bulgakov, A. V. Babkin, A. V. Kepman, V. V. Avdeev, “High-temperature phthalonitrile matrix containing silane fragments”, Mendeleev Commun., 30:6 (2020), 796–798
William J Monzel, Guo-Quan Lu, Timothy L Pruyn, Christopher L Houser, Gordon T Yee, “Thermal and oxidative behavior of a tetraphenylsilane-containing phthalonitrile polymer”, High Performance Polymers, 31:8 (2019), 935
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