Journal
APPLIED NANOSCIENCE
Volume 10, Issue 12, Pages 4781-4790Publisher
SPRINGER HEIDELBERG
DOI: 10.1007/s13204-020-01326-w
Keywords
Graphite nanoplatelets; Carbonyl iron; Nanocomposites; Permittivity; Microwave shielding
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The electrical properties of three-phase composite materials (CMs) graphite nanoplatelets/carbonyl iron/epoxy resin (GNP/Fe/epoxy) with 30 wt% of Fe and (1-5) wt% of GNP were studied by measuring DC conductivity and AC impedance spectra in the frequency range up to 2 MHz. The microwave shielding properties were measured in the frequency range of electromagnetic radiation (EMR) 1-67 GHz. The Nyquist diagrams derived from measured impedance-frequency spectra for GNP/Fe/epoxy CMs were considered within the equivalent circuit model. The significant increase of permittivity was observed for three-phase CMs with the increase of GNP content compared to two-phase GNP/epoxy CMs. For example, the real part of permittivity epsilon ' = 700-300 and imaginary part epsilon '' = 4 x 10(5)-300 for ternary 5 GNP/Fe/epoxy composite in the frequency range 1 kHz-2 MHz. The observed significant increase of AC conductivity for three-phase composites proved the synergetic role of Fe particles in dispersing of GNP filler in epoxy matrix and formation of micro-capacitor network (for low GNP content) as well as the conductive network for higher GNP content. The observed sufficient increase of EMR shielding (SET in dB) beginning from 30-35 GHz for GNP content of 3-5 wt% correlates with DC electrical conductivity increase. The increase of the sample thicknessdleads to the increase of shielding efficiency mainly due to the increase of EMR absorption SEA term.
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