Study of the Radio-Wave Absorbing Properties of a Lithium-Zinc Ferrite Based Composite

Abstract

Results are presented of a study of the radio-wave absorbing properties of a composite material based on lithium-zinc ferrite with composition Li_0.4Fe_2.4Zn_0.2O₄, synthesized by heating a mechanically activated mixture of the initial reagents Li₂CO₃–ZnO–Fe₂O₃ in a high-energy electron beam. It has been shown that a composite based on this material is promising as a radio-wave absorbing coating in the frequency range up to 12 GHz.

Original language	English
Pages (from-to)	621-626
Number of pages	6
Journal	Russian Physics Journal
Volume	57
Issue number	5
DOIs	https://doi.org/10.1007/s11182-014-0284-9
Publication status	Published - 1 Jan 2014

Keywords

Composite
Electron beam
Lithium-zinc ferrite
Mechanical activation
Permeability spectrum
Radiation-thermal heating
Reflection coefficient

ASJC Scopus subject areas

Physics and Astronomy(all)

Access to Document

10.1007/s11182-014-0284-9

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Study of the Radio-Wave Absorbing Properties of a Lithium-Zinc Ferrite Based Composite. / Surzhikov, Anatoly Petrovich ; Lysenko, E. N.; Malyshev, A. V.; Vlasov, V. A.; Suslyaev, V. I.; Zhuravlev, V. A.; Korovin, E. Yu; Dotsenko, O. A.

In: Russian Physics Journal, Vol. 57, No. 5, 01.01.2014, p. 621-626.

Research output: Contribution to journal › Article › peer-review

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title = "Study of the Radio-Wave Absorbing Properties of a Lithium-Zinc Ferrite Based Composite",

abstract = "Results are presented of a study of the radio-wave absorbing properties of a composite material based on lithium-zinc ferrite with composition Li0.4Fe2.4Zn0.2O4, synthesized by heating a mechanically activated mixture of the initial reagents Li2CO3–ZnO–Fe2O3 in a high-energy electron beam. It has been shown that a composite based on this material is promising as a radio-wave absorbing coating in the frequency range up to 12 GHz.",

keywords = "Composite, Electron beam, Lithium-zinc ferrite, Mechanical activation, Permeability spectrum, Radiation-thermal heating, Reflection coefficient",

author = "Surzhikov, {Anatoly Petrovich} and Lysenko, {E. N.} and Malyshev, {A. V.} and Vlasov, {V. A.} and Suslyaev, {V. I.} and Zhuravlev, {V. A.} and Korovin, {E. Yu} and Dotsenko, {O. A.}",

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AU - Surzhikov, Anatoly Petrovich

AU - Lysenko, E. N.

AU - Malyshev, A. V.

AU - Vlasov, V. A.

AU - Suslyaev, V. I.

AU - Zhuravlev, V. A.

AU - Korovin, E. Yu

AU - Dotsenko, O. A.

PY - 2014/1/1

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N2 - Results are presented of a study of the radio-wave absorbing properties of a composite material based on lithium-zinc ferrite with composition Li0.4Fe2.4Zn0.2O4, synthesized by heating a mechanically activated mixture of the initial reagents Li2CO3–ZnO–Fe2O3 in a high-energy electron beam. It has been shown that a composite based on this material is promising as a radio-wave absorbing coating in the frequency range up to 12 GHz.

AB - Results are presented of a study of the radio-wave absorbing properties of a composite material based on lithium-zinc ferrite with composition Li0.4Fe2.4Zn0.2O4, synthesized by heating a mechanically activated mixture of the initial reagents Li2CO3–ZnO–Fe2O3 in a high-energy electron beam. It has been shown that a composite based on this material is promising as a radio-wave absorbing coating in the frequency range up to 12 GHz.

KW - Composite

KW - Electron beam

KW - Lithium-zinc ferrite

KW - Mechanical activation

KW - Permeability spectrum

KW - Radiation-thermal heating

KW - Reflection coefficient

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