Radio absorbing materials based on finishing construction materials for protection against microwave radiation of base stations of cellular communication

Beljaev А.А., Bespalova E.E., Lepeshkin V.V.
Beljaev А.А., Bespalova E.E., Lepeshkin V.V. Radio absorbing materials based on finishing construction materials for protection against microwave radiation of base stations of cellular communication // Proceedings of VIAM. 2015. No. 6. DOI: 10.18577/2307-6046-2015-0-6-10-10. URL: https://test.viam.ru/en/journal/2015/6/10
Abstract

This article considers the need and possibility of creation of radio-absorbing materials based on finishing construction materials. These materials have to be effective within the ranges of the most widespread working frequencies of the cellular communication base stations. The works were conducted in the field of theoretical investigations and experimental studies of samples of the radio-absorbing structures based on finishing construction materials and in the direction of choosing of radio-absorbing fillers

Reference list
  1. Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih pererabotki na period do 2030 goda [The strategic directions of development of materials and technologies of their processing for the period till 2030] //Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
  2. Kablov E.N. Innovacionnye razrabotki FGUP «VIAM» GNC RF po realizacii «Strategicheskih napravlenij razvitija materialov i tehnologij ih pererabotki na period do 2030 goda» [Innovative development of VIAM Federal State Unitary Enterprise of GNTs Russian Federation on implementation «The strategic directions of development of materials and technologies of their processing for the period till 2030»] //Aviacionnye materialy i tehnologii. 2015. №1 (34). S. 3–33.
  3. Kablov E.N. Materialy i himicheskie tehnologii dlja aviacionnoj tehniki [Materials and chemical technologies for aviation engineering] //Vestnik Rossijskoj akademii nauk. 2012. T. 82. №6. S. 520–530.
  4. Beljaev A.A., Kondrashov S.V., Lepeshkin V.V., Romanov A.M. Radiopogloshhajushhie materialy [Radio absorbing materials] //Aviacionnye materialy i tehnologii. 2012. №S. S. 348–352.
  5. Radiacionnaja medicina. T. 4. Gigienicheskie problemy neionizirujushhih izluchenij [Radiation medicine. V. 4. Hygienic problems of non-ionizing radiations] /Pod red. Ju.G. Grigor'eva, V.S. Stepanova. M.: Izd. AT. 1999. 304 s.
  6. Grigor'ev Ju.G., Stepanov V.S., Grigor'ev O.A., Merkulov A.V. Jelektromagnitnaja bezopasnost' cheloveka [Electromagnetic safety of the person]. M. 1999. 145 s.
  7. Sanitarno-jepidemiologicheskie pravila i normativy SanPiN 2.1.8/2.2.4.1190–03 «Gigienicheskie trebovanija k razmeshheniju i jekspluatacii sredstv suhoputnoj podvizhnoj radiosvjazi» [Sanitary and epidemiologic rules and Sanpin's standards 2.1.8/2.2.4.1190–03 «Hygienic requirements to placement and operation of means of overland mobile radio communication».].
  8. Grigor'ev Ju.G. Sotovaja svjaz': radiobiologicheskie problemy i ocenka opasnosti [Cellular communication: radio biological problems and danger assessment] //Radiacionnaja biologija. Radiojekologija. 2001. T. 41. №5. S. 500–513.
  9. Gavrilov A.A., Nesterov E.K., Olen'ev V.V., Somov A.Ju. Dobrovol'nyj i vynuzhdennyj jekologicheskij risk pri vozdejstvii jelektromagnitnogo izluchenija, sozdavaemogo sistemami sotovoj svjazi [Voluntary and forced ecological risk at influence of the electromagnetic radiation created by cellular systems] //Izvestija Akademii promyshlennoj jekologii. 2002. №2. S. 43–46.
  10. Hata M. Empirical formula for Propagation Loss in Land Mobile Radio Services //IEEE Trans. On Vehicular Technology. 1980. V. 29. P. 317–325.
  11. Grigor'ev O.A., Merkulov A.V., Temnikov A.G. Ocenka jelektromagnitnoj obstanovki v rajonah razmeshhenija bazovyh stancij sistemy sotovoj svjazi [Assessment of electromagnetic situation in areas of placement of base stations of cellular system] /V sb. materialov II Mezhdunarodnoj konf. «Jelektromagnitnye polja i zdorov'e cheloveka». M. 1999. S. 114–115.
  12. Grigor'ev O.A. Jelektromagnitnaja bezopasnost' gorodskogo naselenija: harakteristika sovremennyh istochnikov JeMP i ocenka ih opasnosti [Electromagnetic safety of urban population: characteristic of modern sources of EMP and assessment of their danger] /V sb. statej Jelektromagnitnye polja i naselenie. M.: Izd-vo RUDN. 2003. S. 76–93.
  13. Babina Ju.V. Jelektromagnitnye izluchenija: budem li my platit' za ih vrednye vozdejstvija [Electromagnetic radiations: whether we will pay for their harmful effects] //Jekos-inform. 1999. №12. S. 26–35.
  14. Kablov E.N., Kondrashov S.V., Jurkov G.Ju. Perspektivy ispol'zovanija uglerodsoderzhashhih nanochastic v svjazujushhih dlja polimernyh kompozicionnyh materialov [Perspectives of use of carbon-containing nanoparticles in binding for polymeric composite materials] //Rossijskie nanotehnologii. 2013. T. 8. №3–4. S. 24–42.
  15. Romanov A.M., Beljaev A.A., Shirokov V.V. Osobennosti optimizacii rezonansnyh radiopogloshhajushhih materialov nemagnitnogo tipa [Features of optimization of resonance radio absorbing materials of non-magnetic type] //Trudy VIAM. 2014. №11. St. 05 (viam-works.ru).
  16. Agafonova A.S., Beljaev A.A., Kondrashov Je.K., Romanov A.M. Osobennosti formirovanija monolitnyh konstrukcionnyh radiopogloshhajushhih materialov na osnove kompozitov, napolnennyh rezistivnym voloknom [Features of forming of monolithic constructional radio absorbing materials on the basis of the composites filled with resistive fiber] //Aviacionnye materialy i tehnologii. 2013. №3. S. 56–59.
  17. Kraev I.D., Obrazcova E.P., Jurkov G.Ju. Vlijanie morfologii magnitnogo napolnitelja na radiopogloshhajushhie harakteristiki kompozicionnyh materialov [Influence of morphology of magnetic filler on radio absorbing characteristics of composite materials] //Aviacionnye materialy i tehnologii. 2014. №S2. S. 10–14.
  18. Brehovskih A.M. Volny v sloistyh sredah [Waves in layered environments]. M.: Izd-vo AN SSSR. 1957. S. 53–56.
  19. Odelevskij V.I. Raschet obobshhennoj provodimosti geterogennyh system [Calculation of the generalized conductivity of heterogeneous systems]. M. 1947. 144 s.
  20. King R., Smit G. Antenny v sloistyh sredah [Aerials in layered environments]. T. 1. M.: Mir. 1984. S. 408–413.
  21. Shul'deshov E.M., Lepeshkin V.V., Romanov A.M. Metod nerazrushajushhego kontrolja kompleksnoj dijelektricheskoj pronicaemosti vhodnyh slabo napolnennyh sloev gradientnyh radiopogloshhajushhih polimernyh kompozicionnyh materialov [Method of non-destructive testing of complex dielectric permittivity of the entrance poorly filled layers of gradient radio absorbing polymeric composite materials] //Trudy VIAM. 2014. №10. St. 11 (viam-works.ru).
  22. Shirokov V.V., Romanov A.M. Issledovanie dijelektricheskih harakteristik steklosotoplasta volnovodnym metodom [Research of dielectric characteristics of glass-fiber-reinforced honeycomb by the waveguide method] //Aviacionnye materialy i tehnologii. 2013. №4. S. 62–68.
  23. Beljaev A.A., Romanov A.M., Shirokov V.V., Shul'deshov E.M. Izmerenie dijelektricheskoj pronicaemosti steklosotoplasta v svobodnom prostranstve [Measurement of dielectric permittivity of glass-fiber-reinforced honeycomb in free space] //Trudy VIAM. 2014. №5. St. 6 (viam-works.ru).
  24. Beljaev A.A., Shirokov V.V., Romanov A.M. Issledovanie dijelektricheskih harakteristik monolitnyh stekloplastikov radiotehnicheskogo naznachenija [Research of dielectric characteristics of monolithic fibreglasses of radio engineering assignment] //Kompozitnyj mir. 2014 (v pechati).
  25. Shirokov V.V. Osobennosti primenenija jazykov programmirovanija vysokogo urovnja dlja rascheta radiotehnicheskih parametrov materialov special'nogo naznachenija [Features of application of programming languages of high level for calculation of radio engineering parameters of materials of special purpose] //Trudy VIAM (v pechati).