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Journal Electromagnetic Waves and Electronic Systems №11 for 2014 г.
Article in number:
Polymeric composites with carbon fillers to protection against electric-magnetic radiations
Keywords: electromagnetic radiation polymer composites carbon compositions microwave absorption coatings structure mechanical properties
Authors:
V.N. Gulbin - Ph. D. (Eng.), Member of Russian Nanotechnology society, Head of Department of Radioprotection materials, OJSC «EMC «Vega» Corp. E-mail: vngulbin@mail.ru
V.V. Cherdyntsev - Ph. D. (Phys.-Math.), Associate Professor, Department of Physical chemistry, NUST «MISIS» (Moscow). E-mail: vvch@misis.ru
V.V. Polivkin - Leading Process Engineer, OJSC «EMC «Vega» Corp. E-mail: polivkin@imc-vega.ru
V.V. Gorkavenko - Ph. D. (Phys.-Math.), Senior Research Scientist, Head of Scientific and technical Department, OJSC «EMC «Vega» Corp. E-mail: v.v.gorkavenko@mail.ru
Abstract:
Continuous technical progress and the development of science in the modern age lead to the widespread use of equipment emitting electromagnetic radiation. In order to obtain the radio protective properties of the materials developed radio absorbing carbon composition, giving the various materials and products functional property of absorbing electromagnetic radiation. Determination of radio physical properties of polymer composites were determined by measuring the reflection and transmission coefficients of electromagnetic radiation in the ultrahigh frequency range. The use of the composition and carbon nanotubes obtained highly effective radio protective polymeric composites based on ultrahigh molecular weight polyethylene, liquid resole type oligomers and polycarbonate. Structural studies have been carried out and the physical and mechanical testing radio protective ultrahigh molecular weight polyethylene. Tested flame retardant foam composite radio protective and investigated the radio protective polycarbonate filled with carbon nanotubes. Developed polymer composites are designed to reduce the electromagnetic field in the city, civil or industrial buildings and structures to values corresponding to the sanitary standards. In the resulting radio protective composites using environmentally safe carbon components and these composites allow a person to get rid of electromagnetic pollution in its habitat, especially in large megalopolis areas.
Pages: 66-72
References

  1. Grigoriev O.A. Electric-magnetic fields and human health. The state of problem // Energy: Econ., techn. ecol. 1999. № 5. P. 19.
  2. Bogush V.A., Borbotko T.V., Gusinsky A.V., etc. Electric-magnetic radiation. The protective methods and means / Under edition of L.M. Lynkov. Minsk: Bestprint. 2003.
  3. Gulbin V.N., Mikheev V.A., Kolpakov N.S., Alexandrov Yu.K., Polivkin V.V. The materials to protect human surrounding against electric-magnetic radiation // Technology EMS. 2013. № 2 (45). P. 18−25.
  4. Chung D.D.L., Alexandrov Yu.K., etc. Materials for biological safety through electromagnetic shielding // J. Mater. Eng. Perf. 2000. V. 9. № 3. P. 350−354.
  5. Mixajlin Yu.A. Teplo-, termo- i ognestojkost' polimerny'x materialov. Plastinfo. 2011.
  6. Saib A., Bednarz L., Daussin R., Bailly C.etc. Carbon Nanotube Composites for Broadband Microwave Absorbing Materials // IEEE Transactions on microwave theory and techniques. 2006. V. 54. № 6.
  7. Bell J.M., Goh R.G.S., Waclawik E.R., Giulianini M.andMotta N. Polymer-carbon nanotube composites: basic and applications. Materials forum. 2008. V. 32. Edited by J.M. Cairney, S.P. RingerandR. Wuhrer. Institute of Materials Engineering Australasia Ltd.
  8. Kablov E.N., Kondrashov S.V., Yurkov G.Yu. Perspektivy' ispol'zovaniya uglerodsoderzhashhix nanochasticz v svyazuyushhix dlya polimerny'x kompoziczionny'x materialov // Rossijskie nanotexnologii. 2013. T. 8. № 3 (www.nanorf.ru).
  9. Pat. RF 2519244. 2012. Radiopogloshhayushhaya kompozicziya dlya radiozashhitny'x materialov. Polivkin V.V., Gul'bin V.N., Mixeev V.A., Kolpakov N.S.
  10. Astaxov M.V. Fiziko-ximicheskie svojstva individual'ny'x nanochasticz i ix ansamblej // Materialy' e'lektronnoj texniki. 2000. № 2.
  11. Gul'bin V.N., Kolpakov N.S., Aleksandrov Yu.K., Polivkin V.V. Radiozashhitny'e stroitel'ny'e materialy' // Naukoemkie texnologii. 2014. № 3. S. 17−25.
  12. Gapeev A.B. Issledovanie mexanizmov biologicheskogo dejstviya nizkointensivnogo e'lektromagnitnogo izlucheniya krajne vy'sokix chastot: uspexi, problemy' i perspektivy' // Biomediczinskaya radioe'lektronika. 2014. № 6. S. 20−30.