Method of non-destructive testing of complex dielectric permittivity of input poorly filled layers of gradient radar-absorbing polymeric composite materials

Shuldeshov Е.М., Lepeshkin V.V., Romanov A.M.
Shuldeshov Е.М., Lepeshkin V.V., Romanov A.M. Method of non-destructive testing of complex dielectric permittivity of input poorly filled layers of gradient radar-absorbing polymeric composite materials // Proceedings of VIAM. 2014. No. 10. DOI: 10.18577/2307-6046-2014-0-10-11-11. URL: https://test.viam.ru/en/journal/2014/10/11
Abstract

Dielectric characteristics of input poorly filled layers of gradient radar-absorbing polymeric composite materials were investigated by nondestructive control method. Methods of measurement of complex dielectric permittivity of samples are described. A stand for carrying out non-destructive testing of complex dielectric permittivity of input layers of radar-absorbing gradient structures is described. Advantages of this method are described, cases of the most reasonable application are considered.

Reference list
  1. Brandt A.A. Issledovanija dijelektrikov na sverhvysokih chastotah [Studies dielectrics at microwave frequencies]. M.: Gos. izd-vo fiz.-mat. lit. 1963. S. 191–201.
  2. 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.
  3. Beljaev A.A., Agafonova A.S., Antipova E.A., Botanogova E.D. Konstrukcionnyj radiopogloshhajushhij material trehslojnoj struktury s soglasujushhim sloem [Structural radar-absorbing material is a three-layer structure with a matching layer] //Trudy VIAM. 2013. №7. St. 02 (viam-works.ru).
  4. Jurkov G.Ju., Kraev I.D., Obrazcova E.P. Vlijanie morfologii magnitnogo napolnitelja na radiopogloshhajushhie harakteristiki kompozicionnyh materialov [The influence of the filler on the morphology of the magnetic characteristics of radio-composite materials] (v pechati).
  5. Kablov E.N. Strategicheskie napravlenija razvitija materialov i tehnologij ih pererabotki na period do 2030 goda [Strategic directions of development of materials and technologies to process them for the period up to 2030] //Aviacionnye materialy i tehnologii. 2012. №S. S. 7–17.
  6. Kablov E.N. Aviakosmicheskoe materialovedenie [Aerospace materials] //Vse materialy. Jenciklopedicheskij spravochnik. 2008. №3. S. 2–14.
  7. Kablov E.N. Kontrol' kachestva materialov – garantija bezopasnosti jekspluatacii aviacionnoj tehniki [Quality control – a guarantee safe operation of aeronautical engineering] /V sb. Aviacionnye materialy i tehnologii. Vyp. «Metody ispytanij i kontrolja kachestva metallicheskih i nemetallicheskih materialov». M.: VIAM. 2001. S. 3–8.
  8. Tkachuk A.I., Grebneva T.A., Chursova L.V., Panina N.N. Termoplastichnye svjazujushhie. Nastojashhee i budushhee [Thermoplastic binders. Present and Future] //Trudy VIAM. 2013. №11. St. 07 (viam-works.ru).
  9. Kablov E.N., Sivakov D.V., Guljaev I.N., Sorokin K.V., Fedotov M.Ju., Goncharov V.A. Metody issledovanija konstrukcionnyh kompozicionnyh materialov s integrirovannoj jelektromehanicheskoj sistemoj [Methods for studying structural composite materials with an integrated electromechanical system] //Aviacionnye materialy i tehnologii. 2010. №4. S. 17–20.
  10. Murashov V.V. Opredelenie fiziko-mehanicheskih harakteristik i sostava polimernyh kompozicionnyh materialov akusticheskimi metodami [Determination of physical and mechanical properties and composition of the polymer composite materials by acoustic methods] //Aviacionnye materialy i tehnologii. 2012. №S. S. 465–475.
  11. Murashov V.V., Rumjancev A.F. Defekty monolitnyh detalej i mnogoslojnyh konstrukcij iz polimernyh kompozicionnyh materialov i metody ih vyjavlenija. Ch. 2. Metody vyjavlenija defektov monolitnyh detalej i mnogoslojnyh konstrukcij iz polimernyh konstrukcionnyh materialov [Defects monolithic parts and multilayer structures of polymer composite materials and methods for their detection. Part 2 Methods for detection of defects monolithic parts and multilayer structures made of polymeric structural materials] //Kontrol'. Diagnostika. 2007. №5. S. 31, 36, 41, 42.
  12. Murashov V.V., Rumjancev A.F. Defektoskopija i diagnostika polimernyh kompozicionnyh materialov akusticheskimi metodami [Flaw detection and diagnosis of polymer composite materials by acoustic methods] /V kn. 75 let. Aviacionnye materialy. Izbrannye trudy «VIAM» 1932–2007: Jubilejnyj nauch.-tehnich. sb. M.: VIAM. 2007. S. 342–347.
  13. Murashov V.V., Rumjancev A.F., Ivanova G.A., Fajzrahmanov N.G. Diagnostika struktury, sostava i svojstv polimernyh kompozicionnyh materialov [Diagnosis of the structure, composition and properties of polymer composites] //Aviacionnye materialy i tehnologii. 2008. №1. S. 17–24.
  14. Murashov V.V., Rumjancev A.F. Opredelenie poristosti ugleplastikov lazerno-akusticheskim sposobom v aviacionnyh konstrukcijah [Porosity of carbon plastics laser-acoustic method to aerostructures] /V sb. dokl. Mezhdunarodnoj nauch.-tehnich. konf. «Gidroaviasalon–2008». M.: CAGI. 2008. Ch. 1. S. 287–291.
  15. Murashov V.V., Rumjancev A.F. Diagnostika sostava i svojstv polimernyh kompozitov v detaljah i konstrukcijah [Diagnosis of the composition and properties of polymer composites in the details and constructions] //Kontrol'. Diagnostika. 2008. №8. S. 13–17.
  16. Sorokin K.V., Murashov V.V., Fedotov M.Ju., Goncharov V.A. Prognozirovanie razvitija defektov v konstrukcijah iz PKM sposobom opredelenija izmenenij zhestkosti pri aktjuirovanii materiala [Prediction of the development of defects in the construction of the PCM method for determining changes in the stiffness of the material at aktyuirovanii] //Aviacionnye materialy i tehnologii. 2011. №2. S. 20–22.
  17. Murashov V.V. Nerazrushajushhij kontrol' zagotovok i detalej iz uglerod-uglerodnogo kompozicionnogo materiala dlja mnogorazovogo kosmicheskogo korablja «Buran» [Nondestructive testing of pieces and parts of a carbon-carbon composite material for space shuttle «Buran»] //Trudy VIAM. 2013. №4. St. 05 (viam-works.ru).
  18. Po Chul Kim, Dai Gil Lee. Composite sandwich constructions for absorbing the electromagnetic waves //Composite Structures. 2009. V. 87. Р. 161–167.