Carbon Plastics in the Design of Space-Technology Products (Review)

This review describes the history, current condition, and prospects of the application of polymer-composite materials in the design of space-technology products. Special attention has been paid to the application of materials based on continuous carbon-reinforcing fillers. Russian and foreign source...

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Vydané v:	Polymer science. Series D, Glues and sealing materials Ročník 15; číslo 4; s. 678 - 684
Hlavní autori:	Valueva, M. I., Evdokimov, A. A., Klimenko, O. N., Nacharkina, A. V.
Médium:	Journal Article
Jazyk:	English
Vydavateľské údaje:	Moscow Pleiades Publishing 01.12.2022 Springer Nature B.V
Predmet:	Carbon Chemistry Chemistry and Materials Science High temperature Inventions Polymer matrix composites Polymer Sciences polymer-composite materials space technology carbon fibers technical solutions carbon plastics
ISSN:	1995-4212, 1995-4220
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Abstract	This review describes the history, current condition, and prospects of the application of polymer-composite materials in the design of space-technology products. Special attention has been paid to the application of materials based on continuous carbon-reinforcing fillers. Russian and foreign sources and patents for inventions are considered. Taking into account global experience, the prospects of designing structures using high-temperature carbon plastics are shown.
AbstractList	This review describes the history, current condition, and prospects of the application of polymer-composite materials in the design of space-technology products. Special attention has been paid to the application of materials based on continuous carbon-reinforcing fillers. Russian and foreign sources and patents for inventions are considered. Taking into account global experience, the prospects of designing structures using high-temperature carbon plastics are shown.
Author	Valueva, M. I. Evdokimov, A. A. Klimenko, O. N. Nacharkina, A. V.
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Cites_doi	10.18577/2071-9140-2017-0-S-349-367 10.22349/1994-6716-2020-103-3-89-102 10.21499/2409-1650-2018-2-130-137 10.1016/j.compositesa.2017.06.013
ContentType	Journal Article
Copyright	Pleiades Publishing, Ltd. 2022. ISSN 1995-4212, Polymer Science, Series D, 2022, Vol. 15, No. 4, pp. 678–684. © Pleiades Publishing, Ltd., 2022. Russian Text © The Author(s), 2022, published in Vse Materialy, 2022, No. 1, pp. 12–21.
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Samarsk. Nauch. Tsentra Ros. Akad. Nauk201618571577 E. N. Kablov et al., RF Patent 2666734. Shukhov State Technological Institute (Belgorod), RF Patent 2673336. M. Flanagan, D. M. Grogan, J. Goggins, et al., “Permeability of carbon fibre PEEK composites for cryogenic storage tanks of future space launchers,” Composites. Part A. Applied Science and Manufacturing 101, 173–184 (2017). https://doi.org/10.1016/j.compositesa.2017.06.013 KablovE. N.StartsevV. O.System analysis of the influence of climate on mechanical properties of composite materials based on Russian and foreign sources of information (a review)Aviats. Mater. Tekhnol., No.201824758 LototskayaV. A.YakovenkoL. F.AlekseenkoE. N.Effect of space factors modelled in laboratory on the cyclic strength of carbon plasticsVopr. Atom. Nauki Tekh., No.20114118123 ValuevaM. I.ZeleninaI. V.MishuroK. S.Review of publications of the development of blades made of polymer composite materials for aircraft engine fanVestn. Mashinostr., No.201923941 RumyantsevP. F.Creation from carbon plastic of doors of the payload for the large transport aircraft “Buran”Aviats. Mater. Tekhnol., No.2013S15661 L. S. Novikova, M. S. Samokhina, V. N. Chernik, et al., Experimental and theoretical simulation of the ffect of atomic oxygen on polymer composites. http://nuclphys.sinp.msu.ru/school/s12/12_28.pdf. ZeleninaI. V.GulyaevI. N.KucherovskiiA. I.Heat resistant carbon plastics for the working wheel of a centrifugal compressorTrudy Vseross. Inst. Aviats. Mater., No.201626471 E. N. Kablov (5447_CR5) 2015; 1 Yu. A. Mikhailin (5447_CR10) 2013 E. N. Kablov (5447_CR14) 2020; 1 5447_CR41 A. I. Tkachuk (5447_CR13) 2020; 2 5447_CR21 5447_CR20 5447_CR45 5447_CR44 M. I. Valueva (5447_CR8) 2019; 2 K. A. Matveev (5447_CR37) 2014; 11–2 5447_CR24 E. N. Kablov (5447_CR6) 2018; 2 5447_CR26 5447_CR29 L. V. Denisova (5447_CR23) 2014; 9 5447_CR1 5447_CR3 K. V. Mikhailovskii (5447_CR36) 2012; 9 5447_CR2 5447_CR4 P. F. Rumyantsev (5447_CR39) 2013; S1 E. Sh. Imametdinov (5447_CR7) 2020; 3 5447_CR9 A. V. Yastrebinskaya (5447_CR25) 2015; 12 I. V. Zelenina (5447_CR16) 2016; 2 G. M. Gunyaev (5447_CR38) 2013; S1 A. V. Degtyarev (5447_CR34) 2012; 3 B. I. Molchanov (5447_CR19) 1997; 3–4 V. E. Bitkin (5447_CR33) 2016; 18 M. I. Valueva (5447_CR15) 2020; 3 R. R. Mukhametov (5447_CR12) 2014; 4 V. A. Lototskaya (5447_CR22) 2011; 4 I. M. Demonis (5447_CR27) 2011; 6 5447_CR30 5447_CR32 5447_CR11 5447_CR35 5447_CR18 5447_CR17 A. V. Vlasenko (5447_CR28) 2016; 1 G. M. Gunyaev (5447_CR42) 1983; 2 M. A. Litarov (5447_CR46) 2020; 2 A. A. Smerdov (5447_CR31) 2012; 8 E. N. Kablov (5447_CR43) 2012; 11 (5447_CR40) 2013
References_xml	– reference: ValuevaM. I.ZeleninaI. V.ZharinovM. A.High-temperature carbon plastics on the basis of thermoreactive polyimide binderVopr. Materialoved., No.202038910210.22349/1994-6716-2020-103-3-89-102 – reference: Shukhov State Technological Institute (Belgorod), RF Patent 2673336. – reference: Aerospace Advanced Composite Materials Selector Guide. https://www.toraytac.com/media/99290c4d-4856-49e5-8ca7-d338c8f144f5/UvyInA/TAC/Documents/Selector%20Guides/Aerospace%20selector%20 guides/Toray_Aerospace-Advanced-Composite-Materials_Selector-Guide.pdf. – reference: M. Flanagan, D. M. Grogan, J. Goggins, et al., “Permeability of carbon fibre PEEK composites for cryogenic storage tanks of future space launchers,” Composites. Part A. Applied Science and Manufacturing 101, 173–184 (2017). https://doi.org/10.1016/j.compositesa.2017.06.013 – reference: E. N. Kablov, Trends and Landmarks of Russia’s Innovative Development 3rd ed. (Vseross. Inst. Aviats. Mater., Moscow, 2015). – reference: CF & CFRP Market by Source (Virgin, Recycled), Precursor (PAN, Pitch, Rayon), Resin (Thermosetting, Thermoplastic), Manufacturing Process, End-use Industry, and Region—Global Forecast to 2025. http://www.marketsandmarkets.com/Market-Reports/carbon-fiber-composites-market-416. – reference: S. V. Reznik et al., Patent RF 2537515. – reference: KablovE. N.StartsevO. V.DeevI. S.Properties of polymer composite materials after effect of open space on near-Earth orbitsVse Mater. Entsiklopedich. Spravochnik, No.201211216 – reference: GunyaevG. M.DushinM. I.IvoninYu. N.Effect of exposure to open-space conditions on physicomechanical properties of carbon plasticMekh. Kompozit. Mater., No.19832211215 – reference: MikhailovskiiK. V.ProsuntsovP. V.ReznikS. V.“Development pf highly thermally conductive polymer composite materials for space structures,” Mosk. Gos. Tekh. Univ. im BaumanaSer. Mashinostroenie, No.2012998106 – reference: MikhailinYu. A.Fiber Polymer Composite Materials in Engineering2013St. PetersburgNauchyne Osnovy i Tekhnol – reference: LototskayaV. A.YakovenkoL. F.AlekseenkoE. N.Effect of space factors modelled in laboratory on the cyclic strength of carbon plasticsVopr. Atom. Nauki Tekh., No.20114118123 – reference: A. E. Raskutin, “Next-generation Russian polymer composite materials, their mastering and implementation in advances constructs under design,” Aviats. Mater. Tekhnol., No. S, 349–367 (2017). – reference: E. N. Kablov et al., RF Patent 2666734. – reference: BitkinV. E.ZhidkovaO. G.DenisovA. V.Designing dimension-stable carrier structure of the optical-electron unit made of carbon plastic for spacecraftIzv. Samarsk. Nauch. Tsentra Ros. Akad. Nauk201618571577 – reference: RumyantsevP. F.Creation from carbon plastic of doors of the payload for the large transport aircraft “Buran”Aviats. Mater. Tekhnol., No.2013S15661 – reference: DenisovaL. V.“Composite materials on the basis of a polyimide matrix for spacecraft,” Mezhdunarod. Nauchno-IssledZh., No.201493031 – reference: N. D. Semkin, A. M. Telegin, and M. P. Kalaev, “Space and its influence on the elements of spacecraft design,” Samara Gos. Aerokosm. Univ. im Koroleva (2013). – reference: KablovE. N.Composites: Today and tomorrowMetally Evrazii, No.201513639 – reference: P. V. Matyukhin, “Heat resistant polymer composites for neutron and gamma protection,” Mezhdunarod. Nauchno-Issled. Zh., No. 6–1, 70–71 (2014). – reference: Patent RF 2238228. – reference: KablovE. N.StartsevV. O.System analysis of the influence of climate on mechanical properties of composite materials based on Russian and foreign sources of information (a review)Aviats. Mater. Tekhnol., No.201824758 – reference: ValuevaM. I.ZeleninaI. V.MishuroK. S.Review of publications of the development of blades made of polymer composite materials for aircraft engine fanVestn. Mashinostr., No.201923941 – reference: VlasenkoA. V.SkryabinV. V.Application of advanced composite materials for rocket and space technology projectsAktual. Probl. Aviatsii Kosmonavtiki201617173 – reference: E. N. Kablov et al., RF Patent 2572139. – reference: SmerdovA. A.I. A. Buyanov, and I. V. Chudnov, “Analysis of optimal combinations of the requirements for carbon plastics u der development for large-size spacecraft constructionsIzv. Vyssh. Uchebn. Zaved. Mashinostr., No.201287077 – reference: MolchanovB. I.GudimovM. M.“Properties of carbon plastics and scope of their applications,” AviatsProm-st, Nos.19973–45860 – reference: E. A. Nikolaeva, A. N. Timofeev, and K. V. Mikhailovskii, “High thermal conductivity carbon plastic of the basis of a pitch and a dispersive filled ENFB matrix,” Inform.-Tekhnol. Vestn., No. 2, 130—137 (2018) – reference: “Specific rigidity, specific strength, low heat expansion, thermal conductivity, moisture absorption.” https://www.torayca.com/en/activity/act_004.html. – reference: MatveevK. A.“Specific features of the application of polymer materials in open space,” Mezhdunar. Nauch.-Issled. Zh., No.201411–25456 – reference: LitarovM. A.Analysis of mathematical models of gas emission by polymer composite materials under open-space conditionsKonstruktsii Kompozits. Mater., No.202023843 – reference: ZeleninaI. V.GulyaevI. N.KucherovskiiA. I.Heat resistant carbon plastics for the working wheel of a centrifugal compressorTrudy Vseross. Inst. Aviats. Mater., No.201626471 – reference: L. S. Novikova, M. S. Samokhina, V. N. Chernik, et al., Experimental and theoretical simulation of the ffect of atomic oxygen on polymer composites. http://nuclphys.sinp.msu.ru/school/s12/12_28.pdf. – reference: CF & CFRP Market worth 37.19 Billion USD by 2022. https://www.marketsandmarkets.com/PressReleases/carbon-fiber-composites.asp. – reference: S. A. Korfunenko, “Prospects for use of metal composites operated in open space,” Mezhdunar. Nauch.-Issled. Zh., No. 11–1, 32–34 (2014). – reference: O. V. Borovikova, “Change in the surface of polymers under irradiation with vacuum ultraviolet,” Mezhdunar. Nauch.-Issled. Zh., No. 11–1, 15–18 (2014). – reference: MukhametovR. R.DolgovaE. A.MerkulovaYu. I.Development of a bismaleimide thermally resistant binder for composite materials intended for aircraft industryAviats. Mater. Tekhnol., No.201445357 – reference: DemonisI. M.PetrovaA. P.VIAM’s materials in space technologyVse Mater. Entsiklopedich. Spravochnik, No.201162 – reference: ImametdinovE. Sh.ValuevaM. 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Title	Carbon Plastics in the Design of Space-Technology Products (Review)
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