Measurements of electromagnetic wave absorption properties of carbon nanotube–epoxy composites at microwave frequencies around 8.43 GHz

Abstract

Microwave (8.43 GHz) absorption properties have been measured for multiwalled carbon nanotube (MWCNT)–epoxy composites. A microwave resonant cavity technique was utilized as a probe. Six groups of MWCNT–epoxy composite samples with different MWCNT outside diameters were fabricated and tested. The weight percentages of MWCNTs in each sample group were in the range of 1%–10%. The amplitudes of the absorption profiles, the linewidths at half-power maxima, and the shifts in resonant frequencies under load for the six groups of MWCNT–epoxy composite samples were compared. Similar to our previous results measured at 9.968 GHz [Z. Ye et al., J. Appl. Phys. 108, 054315 (2010)], the microwave absorption properties of our samples strongly rely on two parameters: the number of nanotubes and the density of nanotube bundles. It was found that the measured microwave absorption properties of the samples around 8.43 GHz showed a more sensitive response to the magnetic component of the microwave field rather than the electric component.