Features of measurement of dielectric characteristics by means of the slot-hole resonator
In aviation and space technology are widely used materials to ensure absorption or passage of electromagnetic energy – radioabsorbing (RAM) and radio-transparent materials. When designing RРM, especially multi-layer broadband and very important point is determined experimentally of the reflection coefficient (RC) dielectric and magnetic properties of the individual layers of material in a given frequency range (from UHF to millimeter wavelengths). One of the simplest methods for measuring dielectric and magnetic properties of materials is a waveguide method. However, measurements of permeability measurement in waveguides are inherent in large errors due to the inaccu-racy of sample preparation. In addition, at frequencies above 10 GHz waveguide section dimensions become smaller inhomogeneously stey heterogeneous materials, which does not allow for measurement at these frequencies. The measurements were carried out only at certain points range and extremely time-consuming. Resonator m
- Kablov E.N. Strategicheskie napravleniya razvitiya 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 to 2030] // Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
- Kablov E.N. Himiya v aviacionnom materialovedenii [Chemistry in aviation materials science] // Rossijskij himicheskij zhurnal. 2010. T. LIV. №1. S. 3–4.
- Kablov E.N. Aviacionnoe materialovedenie: itogi i perspektivy [Aviation materials science: results and perspectives] // Vestnik Rossijskoj akademii nauk. 2002. T. 72. №1. S. 3–12.
- Kablov E.N. Kontrol kachestva materialov – garantiya bezopasnosti ekspluatacii aviacionnoj tehniki [Quality control of materials is the security accreditation of operation of aviation engineering] // Aviacionnye materialy i tehnologii. 2001. №1. S. 3–8.
- Kablov E.N. Konstrukcionnye i funkcionalnye materialy – osnova ekonomicheskogo i nauchno-tehnicheskogo razvitiya Rossii [Constructional and functional materials are the base of economic and scientific and technical development of Russia] // Voprosy materialovedeniya. 2006. №1. S. 64–67.
- Belyaev A.A., Kondrashov S.V., Lepeshkin V.V., Romanov A.M. Radiopogloshhayushhie materialy [Radio absorbing materials] // Aviacionnye materialy i tehnologii. 2012. №S. S. 348–352.
- Belyaev A.A., Bespalova E.E., Romanov A.M. Pozharobezopasnye radiopogloshhayushhie materialy dlya bezehovyh kamer [Fireproof radio absorbing materials for anechoic cameras] // Aviacionnye materialy i tehnologii. 2013. №1. S. 53–55.
- Agafonova A.S., Belyaev A.A., Kondrashov E.K., Romanov A.M. Osobennosti formirovaniya monolitnyh konstrukcionnyh radiopogloshhayushhih materialov na osnove kompozitov, napolnennyh rezistivnym voloknom [Features of the formation of monolithic structural radio absorbing materials based on composites filled with resistive fibers] // Aviacionnye materialy i tehnologii. 2013. №3. S. 56–59.
- Lushina M.V., Parshin S.G., Rzhevskij A.A. Sovremennye ekraniruyushhie i radiopogloshhayushhie materialy [Modern shielding and radio absorbing materials] // Sistemy upravleniya i obrabotka informacii. 2011. №22. S. 208–223.
- Bibikov S.B., Titov A.N., Cherepanov A.K. Sintez materiala s zadannym koefficientom otrazheniya v shirokom diapazone chastot i uglov padeniya [Material synthesis with the set reflection coefficient with the broad range of frequencies and incidence angles] // Sb. dokl. XV Mezhdunar. nauch.-tehnich. konf. «Radiolokaciya. Navigaciya. Svyaz». Voronezh, 2009. S. 1578–1584.
- Mishhenko S.V., Malkov N.A. Proektirovanie radiovolnovyh (SVCh) priborov nerazrushayushhego kontrolya materialov: ucheb. posobie [Design of radio wave (microwave ovens) of devices of non-destructive testing of materials]. Tambov: Izd-vo TGU, 2003. 128 s.
- Bannyj V.A., Carenko I.V. Radiopogloshhayushhie materialy na osnove napolnennogo polietilena [Radio absorbing materials on the basis of the filled polyethylene] // Vestnik GGTU im. P.O. Suhogo. 2009. №4. S. 3–8.
- Suslyaev V.I., Docenko O.A., Kuznecov V.L., Mazov I.N., Kochetkova O.A. Elektromagnitnye harakteristiki kompozicionnyh radiomaterialov na osnove nanorazmernyh nanostrukturnyh napolnitelej [Electromagnetic characteristics of composition radio materials on the basis of nanodimensional nanostructural fillers] // Doklady TUSURa. 2011. №2 (24). Ch. 2. S. 59–63.
- Docenko O.A., Suslyaev V.I., Kuznecov V.L., Mazov I.N., Kochetkova O.A. Mikrovolnovye harakteristiki kompozicionnyh radiomaterialov na osnove polimera i uglerodnyh struktur [Microwave characteristics of composition radio materials on the basis of polymer and carbon structures] // Doklady TUSURa. 2011. №2 (24). Ch. 2. S. 36–40.
- Garin B.M., Dyakonova O.A., Kazancev Yu.N. Fizicheskie svojstva rezistivnyh nitej i struktur na ih osnove v SVCh diapazone [Physical properties of resistive threads and structures on their basis in the microwave oven range] // Zhurnal tehnicheskoj fiziki. 1999. T. 69. Vyp. 1. S. 104–108.
- Falkovskij O.I. Tehnicheskaya elektrodinamika [Technical electrodynamics]. SPb.: Lan, 2009. 244 s.
- Nikolskij V.V., Nikol'skaya T.I. Elektrodinamika i rasprostranenie radiovoln [Electrodynamics and radio propagation]. M.: URSS, 2012. S. 44–164.
- Bespalova E.E., Belyaev A.A., Romanov A.M., Shirokov V.V. Issledovanie dielektricheskih harakteristik sloev mnogoslojnogo radiopogloshhayushhego materiala dlya bezehovyh kamer na osnove vspenennogo asbesta, napolnennogo nauglerozhennym voloknom [Investigation of the dielectric characteristics of designed for anechoic chambers laminated radar absorbing material layers based with carbonized fiber filled foam asbestos] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2014. №8. St. 12. Available at: http://www.viam-works.ru (accessed: July 15, 2017). DOI: 10.18577/2307-6046-2014-0-8-12-12.
- Brandt L.A. Issledovaniya dielektrikov na sverhvysokih chastotah [Researches of dielectrics at super-high frequencies]. M.: Gos. izd-vo fiz.-mat. lit., 1963. S. 191–201.
- Shirokov V.V., Romanov A.M. Issledovanie dielektricheskih harakteristik steklosotoplasta volnovodnym metodom [Waveguide method research of honeycomb glass fibre plastics dielectric characteristics] // Aviacionnye materialy i tehnologii. 2013. №4. S. 62–68.
- Belyaev A.A., Romanov A.M., Shirokov V.V., Shuldeshov E.M. Izmerenie dielektricheskoj pronicaemosti steklosotoplasta v svobodnom prostranstve [Measurement of honeycomb glass fiber plasticspermittivity in free space] // Trudy VIAM: elektron. nauch-tehnih. zhurn. 2014. №5. St. 06. Available at: http://viam-works.ru (accessed: July 19, 2017). DOI: 10.18577/2307-6046-2014-0-5-6-6.
- Romanov A.M., Belyaev A.A., Bespalova E.E. Nedostatki volnovodnyh metodov izmereniya harakteristik radiopogloshhayushhih materialov [Disadvantages of waveguide techniques for measurement of radar-absorbing material characteristics] // Trudy VIAM: elektron. nauch.-tehnich. zhurn. 2015. №3. St. 11. Available at: http://www.viam-works.ru (accessed: July 19, 2017). DOI: 10.18577/2307-6046-2015-0-3-11-11.
- Kolosov Yu.A., Levkov F.E. Tochnostnye harakteristiki volnovodnogo metoda opredeleniya elektricheskih parametrov dielektrikov [Precision characteristics of the waveguide method of determination of electric parameters of dielectrics] // Voprosy radioelektroniki. Ser.: Obshhie voprosy radioelektroniki. 1985. №12. S. 18–33.
- Kolosov Yu.A., Levkov F.E. O volnovodnom metode opredeleniya elektricheskih parametrov dielektrikov [About the waveguide method of determination of electric parameters of dielectrics] // Voprosy radioelektroniki. Ser.: Obshhie voprosy radioelektroniki. 1986. №1. S. 41–45.
