Title:
Anisotropy coefficient in 2d polydisperse model of composite structures
Authors:
- Krzysztof Barczak
- Edyta Hetmaniok
- Julia Kita
- Joanna Warycha
Published in:
(2024). ECMS 2024, 38th Proceedings
Edited by: Daniel Grzonka, Natalia Rylko, Grazyna Suchacka, Vladimir Mityushev, European Council for Modelling and Simulation.
DOI: http://doi.org/10.7148/2024
ISSN: 2522-2422 (ONLINE)
ISSN: 2522-2414 (PRINT)
ISSN: 2522-2430 (CD-ROM)
ISBN: 978-3-937436-84-5
ISBN: 978-3-937436-83-8 (CD) Communications of the ECMS Volume 38, Issue 1, June 2024, Cracow, Poland June 4th – June 7th, 2024
DOI:
https://doi.org/10.7148/2024-0280
Citation format:
Krzysztof barczak, Edyta hetmaniok, Julia kita, Joanna warycha (2024). Anisotropy coefficient in 2D polydisperse model of composite structures, ECMS 2024, Proceedings Edited by: Daniel Grzonka, Natalia Rylko, Grazyna Suchacka, Vladimir Mityushev, European Council for Modelling and Simulation. doi:10.7148/2024-0280
Abstract:
The article presents a mathematical model describing the coefficients related to the electrical conductivity of the varistor. Varistor’s conductivity is closely related to its microstructure, which consists of ZnO grains surrounded by an amorphous bismuth oxide layer, in- tergrain areas rich in reaction products between the varistor components, and pores. Only active grain boundaries take part in the current conduction process, which are mainly ZnO grains surrounded by amor- phous bismuth oxide. The intergranular areas and pores are electrically inactive, i.e. unnecessary from the point of view of conducting electric current. The angle θ determined from the mathematical model in- dicates the direction of current flow in the varistor, which occur the largest number of active grain bound- aries. The direction perpendicular to θ indicates the presence of the largest number of electrically inactive areas. Having knowledge about the most optimal di- rection of current flow in the varistor can influence the improvement the performance of the varistor and thereby its electroprotection.