Published in
American Institute of Physics, Journal of Applied Physics, 16(114), p. 164304
DOI: 10.1063/1.4826529
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Epoxy composites filled with high surface area-carbon fillers: Optimization of electromagnetic shielding, electrical, mechanical, and thermal properties
,
N. Volynets,
S. Maksimenko,
J. Macutkevic,
I. Kranauskaite,
J. Banys,
E. Ivanov ,
A. Celzard,
R. Kotsilkova ,
V. Fierro,
J. Zicans,
T. Ivanova,
R. Merijs Meri
and other authors.
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Abstract
A comprehensive analysis of electrical, electromagnetic (EM), mechanical, and thermal properties of epoxy resin composites filled with 0.25–2.0 wt. % of carbon additives characterized by high surface area, both nano-sized, like carbon nanotubes (CNTs) and carbon black (CBH), and micro-sized exfoliated graphite (EG), was performed. We found that the physical properties of both CNTs- and CBH-based epoxy resin composites increased all together with filler content and even more clearly for CBH than for CNTs. In the case of EG-based composites, good correlation between properties and filler amount was observed for concentrations below 1.5 wt. %. We conclude that CBH and, to a lower extent, EG could replace expensive CNTs for producing effective EM materials in microwave and low-frequency ranges, which are, in addition, mechanically and thermally stable.