Title :
Printed dipole antennas on substrates reinforced with unidirectional conducting fiber
Author :
Thiel, David Victor ; Kanesan, Manimaran
Author_Institution :
Griffith Sch. of Eng., Griffith Univ., Griffith, NSW, Australia
Abstract :
Fiber reinforced composites offer strength and light weight but are electrically anisotropic. The resonant frequency of dipole antennas is orientation dependent. While FEM modeling showed a cosine relationship between the effective permittivity and angle, experimental measurements at UHF on cardboard reinforced with fine copper wire did not fit this relationship. The electromagnetic anisotropy has implications for radio communications systems located on UAVs and other platforms. Carbon nanotubes in polymeric composites provide a renewable option for high strength materials.
Keywords :
autonomous aerial vehicles; carbon nanotubes; dipole antennas; fibre reinforced composites; finite element analysis; magnetic anisotropy; microstrip antennas; permittivity; C; FEM; UAV; carbon nanotubes; cosine relationship; electromagnetic anisotropy; fiber reinforced composites; permittivity; polymeric composites; printed dipole antennas; radio communications systems; substrates; unidirectional conducting fiber; Conductivity; Dipole antennas; Permittivity; Plastics; Resonant frequency; Substrates;
Conference_Titel :
Antennas and Propagation Society International Symposium (APSURSI), 2014 IEEE
Conference_Location :
Memphis, TN
Print_ISBN :
978-1-4799-3538-3
DOI :
10.1109/APS.2014.6905197
