Polymer composite materials and technologies used in sports industry: a review

The article provides a review of scientific and technical literature, including Russian and foreign periodicals, patents for inventions in the field of creating products for the sports industry from polymer composite materials. The technologies and technical solutions used to achieve the assigned tasks, the advantages and disadvantages of using the methods are considered. It is shown that the use of modern achievements in materials science, a new generation of materials and advanced technologies can contribute to the achievement of high sports results.

1. Sport: novyye rekordy i sportivnye pobedy [Sports: new records and sports victories]: UMATEX. URL: https://umatex.com/applications/sport (reference date 23.10.2020).

2. Bondaletova, L.I., Bondaletov, V.G., Polimernye kompozitsionnye materialy [Polymer composite materials]: textbook, Tomsk: Izd-vo Tomskogo politekhnicheskogo universiteta, 2013, Part 1, pp. 7–8.

3. Patent RU 2 472 559: Usovershenstvovannaya konstruktsiya sportivnoy kliushki [Improved design of a sports stick], International Patent Classification A63B 59/14; Rec. 21.08.2008; Publ. 27.09.2011.

4. Patent US-5303916-A: Hockey stick shaft, Rec. 30.09.1992; Publ. 19.04.1994.

5. Patent RU 96110292/12; International Patent Classification A63B 49/00: Tennisnaya raketka [Tennis racket], Rec. 22.08.1995; Publ. 27.06.1998.

6. Patent RU 2013107517/05: Prepreg, armirovanny voloknami kompozitny material i sposob proizvodstva preprega [Prepreg, fiber-reinforced composite material and prepreg production method], Rec. 20.07.2011; Publ. 20.03.2014.

7. Patent RU 2017117041 U: Kiy bilyardny [Billiard cue], Rec. 16.05.2017; Publ. 28.11.2017.

8. Klimenko, O.N., Valueva, M.I., Rybnikova, A.N., Polimernye i polimernye kompozitsionnye materialy v sporte [Polymer and polymer composite materials in sports]: review, Proceedings of VIAM: electronic scientific journal, No 10, Art. 09. URL: http://www.viam-works.ru (reference date 23.10.2020). DOI: 10.18577/2307-6046-2020-0-10-81-89.

9. Patent RU 93019928/12: Konki [Skates], Rec. 16.04.1993; Publ. 10.11.1997.

10. Patent RU 2018121639: Lyzha s nagrevom skolzyashchey poverkhnosti [Ski with heated sliding surface]; Rec. 14.06.2018; Publ. 15.02.2019.

11. Patent RU 2008101536/05: Sposob vypolneniya uprochneniya dlya kompozitnogo materiala s peremennym profilem prochnosti, uprochnenie, poluchennoe ukazannym sposobom [A method of performing hardening for a composite material with a variable strength profile], Rec. 15.06.2006; Publ. 10.07.2011.

12. Patent RU 2022102915: Doska dlya veikserfinga [Wakesurf board], Rec. 07.02.2022; Publ. 17.08.2022.

13. Sportivny inventar [Sports equipment], Neva Technology. URL: https://zundtec.ru/index.php/reshen/komp/sportivnyj-inventar (reference date 23.10.2020).

14. Patent RU 2011105881/1.1: Rama velosipeda [Bicycle frame], Rec. 17.02.2011; Publ. 10.06.2012; Bul. No 16.

15. Patent RU 93006175/28: Begovaya kachalka [Running rocking chair], Rec. 02.02.1993; Publ. 27.06.1996.

16. Patent RU 2001134758/20U: Gimnastichesky tramplin [Gymnastic springboard], Rec. 25.12.2001; Publ. 10.05.2002.

17. Patent RU 2001134759/20U: Kon gimnastichesky [Pommel horse], Rec. 25.12.2001; Publ. 10.05.2002.

18. Patent RU 92012699/12: Sportivny shest dlya pryzhkov v vysotu i polimerny kompozitsionny material dlya ego izgotovleniya [Sports pole for high jumping and polymer composite material for its manufacture], Rec. 17.12.1992; Publ. 27.12.1995.

19. Shelemet, N.Yu., Chuikov, A.S., Kompozitsionnye materialy dlya oblegcheniya konstruktsii sportivnogo inventarya [Composite materials to facilitate the construction of sports equipment]: electronic resource, BGTU. URL: https://elib.belstu.by/bitstream/123456789/56549/1/ (reference date 23.06.2023).

20. Osnovnye tekhnologicheskie protsessy formoobrazovaniya izdeliy iz PKM [The main technological processes of forming products from PCM]: Helpiks.org. URL: https://helpiks.org/6-33409.html (reference date 23.10.2020).

21. Patent RU 0002635137: Sposob izgotovleniya klyushki iz polimernykh kompozitsionnykh materialov [Method of making clubs from polymer composite materials], Rec. 09.11.2017; Publ. 20.01.2018.

22. Metody proizvodstva ugleplastikov [Methods of production of carbon fiber plastics]: Graphite PRO. URL: http://graphite-pro.ru/technology/karbon/ (reference date 23.10.2020).

23. Osobennosti i preimushchestva karbona. Ego nedostatki i sposoby imitatsii [Features and advantages of carbon fiber. Its disadvantages and ways of imitation]: sk-arsenal.ru. URL:https://skarsenal.ru/osobennosti-i-preimushchestva-karbona-ego-nedostatki-i-sposoby.html.

24. Patent RU 2019132095: Epoksidnoe svyazuyushchee, prepreg na ego osnove i izdelie, vypolnennoe iz nego [Epoxy binder, prepreg based on it and a product made of it], Rec. 10.10.2019; Publ. 14.04.2020.

25. Patent RU 2006106374/04: Epoksidnoe svyazuyushchee, prepreg na ego osnove i izdelie, vypolnennoe iz preprega [Epoxy binder, prepreg based on it and a product made of prepreg], Rec. 01.03.2006; Publ. 27.09.2007.

26. Mukhametov, R.R., Akhmadieva, K.R., Chursova, L.V., Kogan, D.I., Novye polimernye svyazuyushchie dlya perspektivnykh metodov izgotovleniya konstruktsionnykh voloknistykh PKM [New polymer binders for promising methods of manufacturing structural fibrous PCM], 2011, No 2, pp. 38–42.

27. Patent RU 2006134050/12: Sportivnaya rukoyatka s usilennoi zashchitoi ot udarov i sposob ee izgotovleniya [Sports handle with reinforced shock protection and the method of its manufacture], Rec. 25.02.2005; Publ. 20.11.2009.

28. Kolosova, A.S., Sokolskaya, M.K., Vitkalova, I.A., Torlova, A.S., Pikalov, Ye.S., Sovremennye polimernye kompozitsionnye materialy i ikh primenenie [Modern polymer composite materials and their application], Mezhdunarodny zhurnal prikladnykh i fundamentalnykh issledovaniy, 2018, Is. 5, Part 1, pp. 245–256.

29. Inzhektsionnoe litye [Injection molding]: Рoly-industry.com. URL: https://polyindustry.com/technology/injection-moulding/ (reference date 23.10.2020).

30. Pultruziya [Pultrusion]: MPlast.by. URL: https://https://mplast.by/encyklopedia/pultruziya/ (reference date 23.10.2020).

31. Patent 4086115 US: Method of making a hockey stick, Publ. 25.04.1978.

32. Pavlovsky, K.A., Serkova, Ye.A., Melnikov, D.A., Gunyaeva, A.Ye., Proizvodstvo izdelii iz polimernykh kompozitsionnykh materialov metodom pultruzii dlya grazhdanskikh otrasley promyshlennosti [Products made of polymer composite materials by pultrusion method for civil industries], Voprosy Materialovedeniya, 2017, No 4, pp. 81–89.

33. Kablov, E.N., Semenova, L.V., Pet rova, G.N., Larionov, S.A., Perfilova, D.N., Polimernye kompozitsionnye materialy na termoplastichnoy matritse [Polymer composite materials on a thermoplastic matrix], Izvestiya vysshikh uchebnykh zavedeniy. Khimiya i khimicheskaya tekhnologiya, 2016, V. 59. No 10, pp. 61–71 (reference date 23.10.2020).

34. Donetsky, K.I., Khrulkov, A.V., Kogan, D.I., Belinis, P.G., Lukyanenko, Yu.V., Primenenie obiemno-armiruyushchikh preform pri izgotovlenii izdelij iz PKM [The use of emulsionreinforcing blanks in the manufacture of PCM products], Aviatsionnye materialy i tekhnologii, 2013, No 1, pp. 35–39.

35. Kablov, E.N., Kondrashov, S.V., Yurkov, G.Yu., Perspektivy ispolzovaniya uglerodsoderzhashchikh nanochastits v svyazuyushchikh dlya polimernykh kompozitsionnykh materialov [Prospects for the use of carbon-containing nanoparticles in binders for polymer composite materials], Rossiyskie nanotekhnologii, 2013, V. 8, No 3–4, pp. 24–42.

36. Dushin, M.I., Khrulkov, A.V., Mukhametov, R.R., Chursova, L.V., Osobennosti izgotovleniya izdelii iz PKM metodom propitki pod davleniem [Features of manufacturing PCM products by pressure impregnation], Aviatsionnye materialy i tekhnologii, 2012, No 1, pp. 18–26.

37. Patent 99/36462 WO; No РСТ/US99/00898: Low-Toxity, high-temperature polyimides; Publ. 22.07.1999.

38. Patent 6359107 US; No 09/575, 826: Composition of and method for making high performance resins for infusion and transfer molding processes, Rec. 18.05.2000; Publ. 19.03.2002.

39. Postnova, M.V., Postnov, V.I., Opyt razvitiya bezavtoklavnykh metodov formovaniya PKM [Experience in the development of autoclave-free PCM molding methods], Trudy VIAM, 2014, No 4, Art. 06. URL: http://www.viam-works.ru (reference date 23.10.2020). DOI: 10.18577/2307-6046-2014-0-4-6-6.

40. Vlasenko, F.S., Raskutin, A.E., Donetsky, K.I., Primenenie pletenykh preform dlya polimernyh kompozitsionnykh materialov v grazhdanskikh otraslyakh promyshlennosti [Application of braided preforms for polymer composite materials in civil industries]: review, Trudy VIAM, 2015, No 1, Art. 05. URL: http://www.viam-works.ru (reference date 23.10.2020).

41. Perepelkin, K.Ye., Armiruyushchie volokna i voloknistye polimernye kompozity [Reinforcing fibers and fibrous polymer composites], St Petersburg: Nauchnye osnovy y tekhnologii, 2009.

42. High Tech Hockey Stick, A&P Technology Inc. URL: https://www.braider.com/ (reference date 23.10.2020).

43. JEC Innovation Awards Program 2012: Innovation awards winners, JEC Composite Magazine, 2012, No 71.

44. Patent 0098901B1 EA; No PCT/US2005/011171: Support system for a single or multi-piece hollow object, Rec. 01.04.2004; Publ. 28.04.2008.

45. Patent RU. № 2013137937/02: Sposob remonta pologo predmeta v vide cherenka hokkeinoi klyushki [A method of repairing a hollow object in the form of a hockey stick handle], Rec. 13.08.2013; Publ. 10.05.2015.

46. Sidorina, A.I., Safronov, A.M., Kutsevich, K.E., Klimenko, O.N., Uglerodnye tkani dlya izdelij aviatsionnoi tekhniki [Carbon fabrics for aircraft products], Trudy VIAM, 2020, No 12, Art. 05. URL: http://www.viam-works.ru (reference date 20.06.2023). DOI: 10.18577/2307-6046-2020-0-12-47-58.

47. Sidorina, A.I., Safronov, A.M., Razrabotka tekhnologii izgotovleniya uglerodnykh tkanei s vysokoi poverkhnostnoi plotnostyu [Development of technologies for manufacturing carbon fabrics with high surface density], Trudy VIAM, 2020, No 6–7, Art. 08. URL: http://www.viam-works.ru (reference date 20.06.2023). DOI: 10.18577/2307-6046-2020-0-67-72-80.

48. Gunyaeva, A.G., Sidorina, A.I., Klimenko, O.N., Polimerny kompozitsionny material na osnove gibridnogo metallouglerodnogo armiruyushchego napolnitelya: svoistva i primenenie [Polymer composite material based on hybrid metal-carbon reinforcing filler: properties and application], Trudy VIAM, 2020, No 10, Art. 04. URL: http://www.viam-works.ru (reference date 20.06.2023). DOI: 10.18577/2307-6046-2020-0-10-30-39.

49. Kablov, E.N., Innovatsionnye razrabotki FGUP VIAM GNTs RF po realizatsii ‘Strategicheskih napravlenii razvitiya materialov i tekhnologii ikh pererabotki na period do 2030 goda’ [Innovative developments of FSUE VIAM of the State Research Center of the Russian Federation on the implementation of ‘Strategic directions for the development of materials and technologies for their processing for the period up to 2030’], Aviatsionnye materialy i tekhnologii, 2015, No 1 (34), pp. 3–33. DOI: 10.18577/2071-9140-2015-0-1-3-33.

50. Kablov, E.N., Kompozity: segodnya i zavtra [Composites: today and tomorrow], Metally Evrazii, 2015, No 1, pp. 36–39.

51. Kablov, E.N., Startsev, V.O., Sistemny analiz vliyaniya klimata na mekhanicheskie svoistva polimernykh kompozitsionnykh materialov po dannym otechestvennykh i zarubezhnykh istochnikov [System analysis of climate influence on mechanical properties of polymer composite materials according to domestic and foreign sources]: review, Aviatsionnye materialy i tekhnologii, 2018, No 2, pp. 47–58. DOI: 10.18577/2071-9140-2018-0-2-47-58.