Vol. 6, №1, 2014

NANOSYSTEMS

THE MODELING OF THE RADIOABSORBING MEDIUM ON THE BASIS OF COMPOSITE MATERIALS FROM THE POLYVINYLCHLORIDE PLASTISOLS
Kolesov V.V., Fionov A.S.
Kotel’nikov Institute of Radio Engineering and Electronics, Russian Academy of Sciences, http://www.cplire.ru
11/7, Mokhovaya str., 125009 Moscow, Russian Federation
kvv@cplire.ru
Gorshenev V.N.
Emanuel Institute of Biochemical Physics, Russian Academy of Sciences, Moscow, Russian Federation, http://www.chph.ras.ru
4, Kosygina str., 119334 Moscow, Russian Federation
gor@sky.chph.ras.ru

In the work on the basis of PVC- plastisol technology the samples of composite materials with the magnetic, dielectric and carbonic fillers were prepared and investigated. It was shown that the dependence of reflection coefficient according to the power from a mass fraction of filler was nonmonotonic. This makes possible to vary the characteristics of absorbers and to select them in connection with for specific conditions. It was shown that the application as the filler of the PVC- polymeric matrix the thermo-extended graphite with the well developed surface of separate particles, makes it possible to obtain the sufficiently high absorption coefficients in the broadband.

Keywords: сomposite materials, plastisols, magnetic fillers, graphite, fractal analysis of structures, shielding microwave.

UDC 546.73:546.733.732

Bibliography- 27 references
Received 06.10.2010

RENSIT, 2010, 2(1-2):138-161

REFERENCES

White DRJ. A Handbook of Electromagnetic Shielding Materials and Performance. Gainsville: Don White Consultants Inc., 1980.
Swab AJ. Electromagnetische Verträglichkeit. Berlin-Heidelberg, Springer-Verlag, 1994.
Zakhar’ev LN, Lemansky AA. Rasseyanie voln “chernymi” telami [Wave scattering "black" bodies]. Moscow, Sov.radio Publ., 1972.
Olmedo L, Hourquebie P, Jousse F. Handbook of Organic Conductive Molecules and Polymers. N.Y., Wiley, 1997, 3:367.
Ufimtsev PYa. Metod kraevykh voln v fizicheskoy teorii difraktsii [Method of edge waves in the physical theory of diffraction]. Moscow., Sov. radio Publ., 1962.
Ponomarenko AT, Ryvkina NG, Chmutin IA. Tr. Mezhd. Konf. “Polimernye kompozity” [Proc. of the Int. Scientific-Technical. Conf. "Polymer Composites"]. Gomel’, 1998:19.
Vasil’ev VV, Tarnopol’sky YuM, eds. Kompozitsionnye materialy, spravochnik. [Composite Materials, hdbk]. Moscow, Mashinostroenie Publ., 1990, 512 p.
Entsiklopediya polimerov [Encyclopedia of polymers]. Kabanov VA, ed. Moscow, Sov. Entsiklopediya Publ., 1974:541-544.
Promyshlennye polimernye kompozitsionnye materialy [Industrial Polymer Composite Materials]. Engl. ed. Babaevsky PG, ed. Moscow, Khimiya Publ., 1980. 472 p.
Bogoroditsky NP, Pasynkov VV, Tareev BM. Elektrotekhnicheskie materialy [Electrical materials]. Leningrad, Energiya Publ., 1977, 314 p.
Sudzuki K, Fudzimori Kh, Khasimoto K. Amorfnye metally [Amorphous metals]. Masumoto Ts, ed., Japanese ed. Moscow, Metallurgiya Publ., 1987, 328 p.
Brenner A, Riddell G. J. Res. Nat. Bur. Stand, 1947, 39:385-395.
Gubanov AI. Fizika tverdykh tel, t.2 [Physics of solids, vol. 2]. Moscow, 1960, 502 p.
Chandhari P, Cuomo JJ, Gambino RJ. IBM J.Res Developm., 1973:66.
Orehotsky J, Schröder K. J. Appl. Phys., 1972, 43:2413.
Hasegawa RH, Argyle BE, Tao L-J. Proc. AIP Conf., 1974, 24:110.
Mimura Y, Imamura N, Kobayashi T, Okada A, Kushiro Y. J.Appl. Phys., 1978, 49(3):1208-1214. /http://ftemk.mpei.ac.ru/ukk/MAGNET/ MAG33.HTM.
Bogoroditsky NP, Pasynkov VV, Tareev BM. Elektrotekhnicheskie materialy [Electrical materials]. Leningrad, Energoatomizdat Publ., 1985, 304 p.
Kazarnovsky DM, Yamanov SA. Radiotekhnicheskie materialy [Radio-technical materials]. Moscow, Vysshaya shkola Publ., 1972, 312 p.
Berlin AA. Sorovsky obrazovatelny zhurnal, 1995, 1:57-65 (in Russ.).
Blyumenfeld LA, Voevodsky VV, Semenov FE. Primenenie elektronnogo paramagnitnogo rezonansa v khimii [Application of electronic paramagnetic resonance in chemistry]. Novosibirsk, Publ. House Siberian Branch of the USSR Ac. of Sci., 1962, 240 p.
Gerson F. Spektroskopiya EPR vysokogo razresheniya [EPR spectroscopy of high resolution]. Moscow, Mir Publ., 1973, 325 p.
Potapov A.A. Fractaly v radiofizike i radiolokatsii: topologiya vyborki [Fractals in Radiophysics and Radiolocation: topology of sample]. Moscow, Universitetskaya kniga Publ., 2005, 848 p.
Fionov AS, Yurkov GYu, Potapov AA, Kolesov VV, Taratanov NA. Nelineyny mir, 2008, 6(1):37-41 (in Russ.).
Potapov AA, Gulyaev YuV, Nikitov SA, Pakhomov AA, German BA. Noveyshie metody obrabotki izobrazheniy [The latest methods of image processing]. Potapov AA, ed. Moscow, Fizmatlit Publ., 2007.
Gorshenev VN, Ilyushin AS, Kolesov VV, Fionov AS, Petrova NG. Tr. I Mezhd. Konf. “Funktsion. nanomaterialy i vysokochistye veschestva” [Proc. I Intern. Conf "Functional nanomaterials and high-purity substances", Suzdal’, 2008]. In: Advanced Materials, 2008, special issue 6, part 2:351-355.
Kolesov VV, Petrova NG, Fionov AS, Gorshenev VN et al. Proc. of the 16th Intern. Crimean Microwave Conference CriMiCo'2006, Sept. 11-15, 2006, Ukraine. Sevastopol, Veber Publ., 2006:594-595.

Full-text electronic version of this article - web site http://elibrary.ru