New generation PCM based on glass fillers for the manufacturing of interior elements of helicopter equipment

Kolpachkov E.D., Vavilova M.I., Serkova E.A., Dolgov E.Yu., Antipov V.V.
Kolpachkov E.D., Vavilova M.I., Serkova E.A., Dolgov E.Yu., Antipov V.V. New generation PCM based on glass fillers for the manufacturing of interior elements of helicopter equipment // Proceedings of VIAM. 2024. No. 10. DOI: 10.18577/2307-6046-2024-0-10-63-73. URL: https://test.viam.ru/en/journal/2024/10/6
Keywords
melt epoxy binder, polymer composite materials, fiberglass, interior materials, three-layer honeycomb panels, interiors of aviation equipment
Abstract

The results of the development and research of fiberglass for structural purposes for the manufacture of interior design elements of helicopters  are presented. A comparative analysis was carried out with previously developed and used materials, including a foreign analogue. It is shown that the developed materials meet modern requirements for fire safety, and due to the use of an epoxy melt binder they provide increased manufacturability and achieve a high level of elastic and strength characteristics. The possibility of improving the developed material to meet the requirements in terms of fire safety imposed on the interior materials of aircraft of the transport category is shown.

Reference list
  1. Aldoshin S.M., Badamshina E.R., Kablov E.N. Polymer nanocomposites – a new generation of polymer materials with improved performance characteristics. Reports of the 1st International Forum on Nanotechnology «Rosnanotech 08». Moscow, 2008, pp. 385–387.
  2. Kablov E.N., Semenova L.V., Petrova G.N., Larionov S.A., Perfilova D.N. Polymer composite materials on a thermoplastic matrix. Izvestiya vysshikh uchebnykh zavedeniy. Ser.: Khimiya i khimicheskaya tekhnologiya, 2016, vol. 59, no. 10, pp. 61–71.
  3. Barannikov A.A., Veshkin E.A., Postnov V.I., Strelnikov S.V. On the issue of production of floor panels from polymer composite materials for aircraft (review article). Izvestiya Samarskogo nauchnogo tsentra RAN, 2017, no. 4-2, pp. 198–213.
  4. Nacharkina A.V., Zelenina I.V., Valueva M.I., Barbotko S.L. Fire safety of high-temperature carbon fiber reinforced plastics for aviation purposes (review). Trudy VIAM, 2022, no. 7 (113), paper no. 12. Available at: http://www.viam-works.ru (accessed: August 29, 2024). DOI: 10.18577/2307-6046-2022-0-7-134-150.
  5. Kurnosov A.O., Sokolov I.I., Melnikov D.A., Topunova T.E. Fireproof fiberglass for interior of passenger aircraft (review). Trudy VIAM, 2015, no. 11, paper no. 07. Available at: http://www.viam-works.ru (accessed: August 29, 2024). DOI: 10.18577/2307-6046-2015-0-11-7-7.
  6. Serkova E.A., Zastrogina O.B., Barbotko S.L. Study of the possibility of use of new environmentally friendly organophosphorus flame retardants in the composition of binders for interior fire safety materials. Trudy VIAM, 2019, no. 2 (74), paper no. 03. Available at: http://www.viam-works.ru (accessed: August 29, 2024). DOI: 10.18577/2307-6046-2019-0-2-24-34.
  7. Veshkin E.A., Satdinov R.A., Barannikov A.A. Modern materials for the aircraft cabin. Trudy VIAM, 2021, no. 9 (103), paper no. 04. Available at: http://www.viam-works.ru (accessed: August 29, 2024). DOI: 10.18577/2307-6046-2021-0-9-33-42.
  8. Strelnikov S.V., Petukhov V.I., Postnov V.I., Shvets N.I. New solutions in the technology of manufacturing prepregs for interior panels. Izvestiya Samarskogo nauchnogo tsentra RAN, 2011, no. 4-2, pp. 498–507.
  9. Satdinov R.A., Veshkin E.A., Postnov V.I. Assessment of the impact of climatic factors on the performance properties of fiberglass VPS-42P/T-64. Trudy VIAM, 2020, no. 10 (92), paper no. 03. Available at: http://www.viam-works.ru (accessed: August 29, 2024). DOI: 10.18577/2307-6046-2020-0-10-21-29.
  10. Barbotko S.L., Kirillov V.N., Shurkova E.N. Fire safety evolution for polymer composites of aeronautical application. Aviacionnye materialy i tehnologii, 2012, no. 3, pp. 56–63.
  11. Startsev V.O., Antipov V.V., Slavin A.V., Gorbovets M.A. Modern domestic polymer composite materials for aviation industry (review). Aviation materials and technologies, 2023, no. 2 (71), paper no. 10. Available at: http://www.journal.viam.ru (accessed: August 29, 2024). DOI: 10.18577/2713-0193-2023-0-2-122-144.
  12. Sorokin A.E., Ivanov M.S., Sagomonova V.A. Thermoplastic polymer composite materials based on polyetheretherketones of various manufacturers. Aviation materials and technologies, 2022, no. 1 (66), paper no. 04. Available at: http://www.journal.viam.ru (accessed: August 29, 2024). DOI: 10.18577/2713-0193-2022-0-1-41-50.
  13. Tkachuk A.I., Donetsky K.I., Terekhov I.V., Karavaev R.Yu. The use of thermosetting matrices for the manufacture of polymer composite materials by the non-autoclave molding methods. Aviation materials and technology, 2021, no. 1 (62), paper no. 03. Available at: https://www.journal.viam.ru (accessed: August 29, 2024). DOI: 10.18577/2713-0193-2021-0-1-22-33.
  14. Imametdinov E.Sh., Valueva M.I. Promising materials: overview of works in the field of ultrahigh molecular weight polyethylene. Part 1. Aviation materials and technologies, 2024, no. 1 (74), paper no. 00. Available at: http://www.journal.viam.ru (accessed: August 29, 2024). DOI: 10.18577/2713-0193-2024-0-3-69-80.
  15. Imametdinov E.S., Valueva M.I. Сomposites for piston engines (rеview). Aviacionnye materialy i tehnologii, 2020, no. 3 (60), pp. 19–28. DOI: 10.18577/2071-9140-2020-0-3-19-28.