Radiotechnical hot pressed glass fiber plastics for ship aerial fairings and antennas protection in radio connection and radio location systems

The article is devoted to the urgent scientific problem of creation and introduction in shipbuilding of high-strength, water-resistant dielectric glass-reinforced hot pressed plastics on the basis of bi- and polyfunctional epoxy-amine binders and glass fabrics from alkali, quartz and silica glass.

1. Sovremennye mashinostroitelnye materialy. Nemetallicheskie materialy [Modern machine-building materials. Non-metallic materials], Gorynin, I.V., Oryshchenko, A.S., Bakhareva, V.E., Nikolaev, G.I. (Eds.), St Petersburg: Professional, 2014.

2. Bakhareva, V.E., Oryshchenko. A.S.,Vysokoprochnye stekloplastiki dlya arkticheskogo mashinostroeniya [High-strength fiberglass for Arctic engineering], St Petersburg: Professional, 2017.

3. Chawla, K. K., Composite Materials: Science and Engineering, Springer Science & Business Media, 2013.

4. Plastics in Europe, Reinforced Plastics, 1987, V. 31, No 7, pp. 175–180.

5. Mikhailin, Yu.A., Termoustoichivye polimery i polimernye materialy [Thermally stable polymers and polymer materials], StPetersburg: Professional, 2006.

6. Composites Materials Boeing Aerospace Co, Mater. Eng., 1988, V. 105, No 3, p. 63.

7. Reinforced Plastics in Ship Radio Engineering, Reinforced Plastics, 1987, V. 31, No 5, pp. 110–115.

8. Composite Materials: Mechanics, Mechanical Properties and Fabrication, Kawata K., Akasaka T., (Eds.), Elsevier Science Publishers B.V., 1982.

9. Oryshchenko, A.S., Anisimov, A.V., Bakhareva, V.E., Sargsian, A.S., Churikova, A .A., Sozdanie vysokoprochnykh vodostoykikh dielektrikov i razrabotka tekhnologii izgotovleniya izdeliy radiotekhnicheskogo naznacheniya i sudovoy elektroizolyatsii [Creation of high-strength waterproof dielectrics and the development of technology for the manufacture of products for radio engineering purposes and ship’s electrical insulation], Voprosy Materialovedeniya, 2014, No 3(79), pp. 97–108.

10. Glass Reinforced Plastics Details of Antennas, Reinforced Plastics, 1987, V. 31, No 5, pp. 132–134.

11. Davydova, I.F., Kavun, N.S., Stekloplastiki – mnogofunktsionalnye kompozitsionnye materialy [Fiberglass, as multifunctional composite material], Aviatsionnye materialy and tekhnologii, E. Kablov, (Ed.), Moscow, 2012, pp. 253–260.

12. Gurtovnik, I.G., Sokolov, V.I., Trofimov, N.N., Shalgunov, S.I., Radioprozrachnye izdeliya iz stekloplastikov[Radio-transparent products fromfiberglass], Moscow: Mir, 2003.

13. Gurtovnik, I.G., Sportsmen, V.N., Stekloplastiki radiotekhnicheskogo naznacheniya [Stekloplastiki of radio engineering designation], Moscow: Khimiya, 1987.

14. Bakhareva, V.E., Kontorovskaya, I.A., Petrova, L.V.,Izdeliya elektroizolyatsionnogo naznacheniya iz stekloplastikov i tekhnologiya ikh izgotovleniya[Insulating products from fiberglass plastic and technology of their manufacturing], Leningrad: LDNTP, 1981.

15. Bakhareva, V.E., Kontorovskaya, I.A., Petrova, L.V., Utkina, V.F.,Ekspluatatsionnaya stoykost epoksidnykh kompozitsionnykh materialov [Performance resistance of epoxy composite materials], Leningrad: Rumb, 1987.

16. Bakhareva, V.E., Kontorovskaya, I.A., Murovich, V.L., Stepanova, I.I., Vliyanie strukturno-tekhnologicheskikh i ekspluatatsionnykh faktorov na svoistva epoksidnykh stekloplastikov [Influence of structural-technological and operational factors on the properties of epoxy fiberglass plastics], Vysokoprochnye armirovannye polimernye materialy konstruktsionnogo naznacheniya [High-strength reinforced polymeric materials for structural purposes], Leningrad: LDNTP, 1978, pp. 73–79.

17. Manin, V.N., Gromov, A.I., Fiziko-khimicheskaya stoykost polimernykh materialov v usloviyakh ekspluatatsii [Physical and chemical resistance of polymer materials under operating conditions], Leningrad: Khimiya, 1980.

18. Malkin, A.Ya., Chalykh, A.E., Diffuziya i viazkost polimerov. Metody izmereniya [Diffusion and viscosity of polymers. Methods of measurement], Moscow: Khimiya, 1979.

19. Remizov, I.A., Chalykh, A.E., Popov, V.Ya., Opredelenie konstant diffuzii zhidkostey v polimere metodami sorbtsii i spektroskopii vnutrennego otrazheniya [Determination of the diffusion constants of liquids in a polymer by sorption methods and internal reflection spectroscopy], Vysokomolekuliarnye soedineniya. Seriya A, 1982, V. 24, pp. 1630–1635.

20. Reitlinger, S.A., Pronitsaemost polimernykh materialov [Permeability of polymeric materials], Moscow: Khimiya, 1974.

21. Perrin, A.A., Sedletsky, R.V., Analiz i eksperimentalnoe obosnovanie sinkhronnovolnoobraznogo kharaktera izmeneniya mekhanicheskoyprochnosti i dielektricheskikh poter pri vodopogloshchenii (vodosbrose) v konstruktsionnykh polimernykh kompozitakh (sfero-, steklo-, ugleplastikakh) [Analysis and experimental substantiation of the synchronous-wave-like character of the changein mechanical strength and dielectric losses during water absorption (spillway) in structural polymeric composites (sphero-, glass-, carbon plastics)], Voprosy Materialovedeniya, 2015, No 4 (84), pp. 80–90.