Fractal Nature Complex Correction an Inductivity
Mitic, Vojislav V.; Khamoushi, Kouros; Serpa, Cristina; Randjelovic, Branislav M.; Stajcic, Aleksandar; Paunovic, Vesna; Aleksic, Sanja; Vlahovic, Branislav (2021)
Mitic, Vojislav V.
Khamoushi, Kouros
Serpa, Cristina
Randjelovic, Branislav M.
Stajcic, Aleksandar
Paunovic, Vesna
Aleksic, Sanja
Vlahovic, Branislav
IEEE
2021
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Julkaisun pysyvä osoite on
https://urn.fi/URN:NBN:fi:tuni-202211148366
https://urn.fi/URN:NBN:fi:tuni-202211148366
Kuvaus
Peer reviewed
Tiivistelmä
The microstructures properties predicting are based on their materials characteristics. In ceramic materials, regarding higher miniaturization and integrations, the structure analysis is very important. The main contribution of this research is related to relation between perovscites ceramics electronic properties, especially BaTiO3 and NZT-ceramics and structural characteristics. We applied advanced analysis, based on fractal nature and introduced complex fractal correction in defining the very important electromagnetic parameter inductivity (L). The samples consolidation includes both, powder pressing (cold sintering) and hot sintering. The fractal characterization performs very important role from powders up to the final structures, through which exists structure influence on electro-physical and other ceramic properties. We report the experimental results of BaTiO3 and NZT-ceramics processing. Also, this is the first time that we apply complex fractal correction (influence of grains and pore surface and as well as particles Brownian motion) on fundamental thermodynamic temperature in Currie-Weiss law. This application includes the influence of Housdorff dimension (DH) from the microstructure images and connect fractal corrections in Currie-Weiss law, for relative dielectric constant ϵr and magnetic permeability μr. Through ϵr and μr, on this way, for the first time in this scientific area, we present direct relation to inductivity. This complex relation opens quit new advance understanding in structures and parameters in area of ferroelectic-magnetic applications in telecommunications, by introducing the fractals.
Kokoelmat
- TUNICRIS-julkaisut [16944]