Composite material based on iron-containing nanoparticles for applications in the problems of electromagnetic compatibility

The decomposition of iron formate is used to synthesize composite materials that represent ironcontaining nanoparticles localized in the high-pressure-polyethylene matrix with the concentration of the iron-containing component ranging from 10 to 40 wt %. The composition and structure of the material...

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Veröffentlicht in:	Journal of communications technology & electronics 2012-05, Vol.57 (5), p.543-552
Hauptverfasser:	Fionov, A. S., Yurkov, G. Yu, Kolesov, V. V., Pankratov, D. A., Ovchenkov, E. A., Koksharov, Yu. A.
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Sprache:	eng
Schlagworte:	Biological Communications Engineering Composite materials Concentration (composition) Decomposition Electric waves Electromagnetic compatibility Electromagnetic radiation Electromagnetic waves Electromagnetism Electronics Engineering Formates Iron Magnetic properties Magnetic resonance Mossbauer spectroscopy Nanoparticles Networks Noise Novel Radio Systems and Elements Nuclear magnetic resonance spectroscopy Nuclear radiation Polyethylene Porous materials Radiation Studies Toy industry
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container_title	Journal of communications technology & electronics
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creator	Fionov, A. S. Yurkov, G. Yu Kolesov, V. V. Pankratov, D. A. Ovchenkov, E. A. Koksharov, Yu. A.
description	The decomposition of iron formate is used to synthesize composite materials that represent ironcontaining nanoparticles localized in the high-pressure-polyethylene matrix with the concentration of the iron-containing component ranging from 10 to 40 wt %. The composition and structure of the materials are comprehensively analyzed using the transmission electron microscopy, X-ray phase analysis, Mössbauer spectroscopy, and electronic magnetic resonance. Electrophysical and magnetic properties of the synthesized materials and the coefficients of reflection and attenuation in the centimeter-wavelength range are studied. It is demonstrated that the composite materials can be used to provide electromagnetic compatibility, noise immunity, radio shielding, and protection of biological objects against electromagnetic radiation.
doi_str_mv	10.1134/S1064226912040079
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subjects	Biological Communications Engineering Composite materials Concentration (composition) Decomposition Electric waves Electromagnetic compatibility Electromagnetic radiation Electromagnetic waves Electromagnetism Electronics Engineering Formates Iron Magnetic properties Magnetic resonance Mossbauer spectroscopy Nanoparticles Networks Noise Novel Radio Systems and Elements Nuclear magnetic resonance spectroscopy Nuclear radiation Polyethylene Porous materials Radiation Studies Toy industry
title	Composite material based on iron-containing nanoparticles for applications in the problems of electromagnetic compatibility
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