| Title |
Investigating 3D-printed carbon–carbonyl iron composites for electromagnetic applications / |
| Authors |
Tsyhanok, Dzmitry ; Meisak, Darya ; Blyweert, Pauline ; Selskis, Algirdas ; Macutkevič, Jan ; Banys, Jūras ; Fierro, Vanessa ; Celzard, Alain |
| DOI |
10.3390/polym17081009 |
| Full Text |
|
| Is Part of |
Polymers.. MDPI AG. 2025, vol. 17, iss. 8, art. no. 1009, p. 1-11.. eISSN 2073-4360 |
| Keywords [eng] |
dielectric permittivity ; microwave absorption ; 3D-printed structures |
| Abstract [eng] |
The electromagnetic properties of 3D-printed carbon–carbonyl iron powder (CIP) composites are studied in the radio (20 Hz–1 MHz) and microwave (26–37 GHz) frequency ranges. Relatively high electrical conductivities (about several hundred S/m), typical for these structures in the radio frequency range, are observed. The temperature dependence of electrical conductivity is described by Arrhenius’ law, with distinct activation energies above and below a critical temperature, attributed to electron transport through various defects. The microwave properties of the investigated structures are particularly noteworthy. For instance, a 2 mm-plate with 20 wt.% magnetic inclusions achieves 52% absorption at 35 GHz. The microwave dielectric properties of the composite structures strongly depend on the concentration of carbonyl iron particles, with the highest values of the imaginary part of complex dielectric permittivity observed in carbon structures containing 20 wt.% CIP. Moreover, carbon composites with the highest CIP concentration exhibited interesting resonance states, demonstrating significant potential for Salisbury screen applications. |
| Published |
MDPI AG |
| Type |
Journal article |
| Language |
English |
| Publication date |
2025 |
| CC license |
|
