Wireless passive high-temperature sensor based on multifunctional reflective patch antenna up to 1050 degrees centigrade
A novel wireless passive temperature sensor based on a reflective patch is demonstrated up
to 1050° C herein. This reflective patch acts as a patch resonator (temperature sensor) and …
to 1050° C herein. This reflective patch acts as a patch resonator (temperature sensor) and …
Wireless passive temperature sensors using integrated cylindrical resonator/antenna for harsh-environment applications
Wireless passive temperature sensors for harsh-environment applications based on
cylindrical microwave cavity resonators are presented herein. Slot antennas are integrated …
cylindrical microwave cavity resonators are presented herein. Slot antennas are integrated …
Design and research of wireless passive high-temperature sensor based on SIW resonance
F Xu, S Su, L Zhang, T Ren - Micromachines, 2022 - mdpi.com
The temperature of advanced components in aviation and aerospace fields is difficult to
obtain timely. In this study, we aimed to investigate microwave backscattering technology …
obtain timely. In this study, we aimed to investigate microwave backscattering technology …
Effect of free carbon content changed by divinylbenzene on the conductivity of SiCN ceramic
H Shi, J Li, G Zhang, S Meng - Journal of Materials Science: Materials in …, 2023 - Springer
SiCN ceramic is a candidate material for high-temperature sensors because of its stability
and semiconductor characteristics at high temperatures. The free carbon content within the …
and semiconductor characteristics at high temperatures. The free carbon content within the …
Characterization of SiCN ceramic material dielectric properties at high temperatures for harsh environment sensing applications
A novel method is presented in this paper to precisely characterize the dielectric properties
of silicon carbon nitride (SiCN) ceramic materials at high temperatures for wireless passive …
of silicon carbon nitride (SiCN) ceramic materials at high temperatures for wireless passive …
Electric conductivity and microstructure evolution of polymer-derived SiAlCO ceramics
Y Cao, X Yang, L An - Ceramics International, 2016 - Elsevier
The electric conductivity and microstructure of polymer-derived SiAlCO ceramic were
studied. The conductivity increased drastically with increasing pyrolysis temperature and …
studied. The conductivity increased drastically with increasing pyrolysis temperature and …
Evolution of dielectric properties of SiBCN ceramics and its derived wireless passive temperature sensor application
H Shi, S Chen, Q Yan, S Meng, S Lin, J Li - Ceramics International, 2024 - Elsevier
SiBCN ceramics derived from preceramic polymers are suitable candidates for high-
temperature sensors due to their remarkable high-temperature stability and semiconducting …
temperature sensors due to their remarkable high-temperature stability and semiconducting …
Wireless passive sensor development for harsh environment applications
Three researchers at University of Central Florida from electrical engineering, materials
science, and mechanical engineering teamed together to develop high-temperature (>; …
science, and mechanical engineering teamed together to develop high-temperature (>; …
A single-antenna wireless passive temperature sensing mechanism using a dielectrically-loaded resonator
A novel wireless temperature sensing mechanism is proposed using a cylindrical cavity
resonator loaded with temperature dependent dielectric material. The dielectric constant of …
resonator loaded with temperature dependent dielectric material. The dielectric constant of …
Low‐frequency dielectric dispersion in polymer‐derived amorphous silicon carbonitride ceramics
The dielectric response of polymer‐derived amorphous silicon carbonitride (PDC‐Si CN)
material was studied over a wide frequency range from 1 mH z to 10 MH z. Aside from …
material was studied over a wide frequency range from 1 mH z to 10 MH z. Aside from …