Publication detail

Finite Elements Approach to Predicting Impedance Response of Geometrically Convoluted Samples

VANÝSEK, P. VYROUBAL, P. HAŇKA, J. NOVÁK, V. MAXA, J.

Original Title

Finite Elements Approach to Predicting Impedance Response of Geometrically Convoluted Samples

Type

abstract

Language

English

Original Abstract

Capacitance and resistance are extensive variables that depend on the geometry of a sample. Therefore, to obtained a normalized value, attributable to the material and not the sample shape and dimension, the geometry has to be taken into account. While with certain geometric forms simple division of multiplication, based on length and cross-section can be applied, with more convoluted forms this is not as straightforward. Ideal measurement will be done on samples geometrically simple. However, with awkward shapes or irregular electrode placements, measurements are still done and the geometry effect can be corrected after the fact. As an example is a ceramic disc with grain and boundary resistance and capacitance, that could be encountered in studies of advanced high temperature materials, e.g., for sensors of high-temperature fuel cells. The disks prepared by various methods of synthesis are contacted on their flat sides to the impedance analyzer circuitry. Our study correlates the (simulated) measured data to data that would be expected if perfectly symmetrical all-covering contacts were used.

Keywords

Electrochemistry, impedance, finite elements, simulations

Authors

VANÝSEK, P.; VYROUBAL, P.; HAŇKA, J.; NOVÁK, V.; MAXA, J.

Released

14. 10. 2015

Publisher

The Electrochemical Society

Location

Pennington, NJ USA

ISBN

2151-2043

Number

MA2015-02

URL

BibTex

@misc{BUT119992,
  author="Petr {Vanýsek} and Petr {Vyroubal} and Jiří {Haňka} and Vítězslav {Novák} and Jiří {Maxa}",
  title="Finite Elements Approach to Predicting Impedance Response of Geometrically Convoluted Samples",
  booktitle="ECS Meeting Abstracts, 228th ECS Meeting",
  year="2015",
  edition="MA2015-02",
  number="MA2015-02",
  publisher="The Electrochemical Society",
  address="Pennington, NJ USA",
  issn="2151-2043",
  url="http://ma.ecsdl.org/content/MA2015-02/49/1942.abstract?sid=49fe1e90-7063-4359-bce7-4626a61b3b33",
  note="abstract"
}