Publication detail
Elastic properties of multi-layered ceramic systems for SOCs
MASINI, A. ŠIŠKA, F. ŠEVEČEK, O. CHLUP, Z. DLOUHÝ, I.
English title
Elastic properties of multi-layered ceramic systems for SOCs
Type
journal article in Web of Science
Language
en
Original abstract
SOCs (Solid Oxide Cells) operate in harsh conditions and have to withstand considerable static and cyclic stresses, both mechanical and thermal. Thus, their mechanical stability is threatened. One fundamental aspect is the structural integrity of the cell. In fact, mechanical failure of a single cell can damage the whole stack, reducing the lifetime and the efficiency of the entire system. This study focuses on the ceramic layered structure of an Yttria-stabilized electrolyte supported cell. Its elastic modulus has been measured through destructive and nondestructive techniques (three-point bending test, impulse excitation technique, tensile test). Many literature sources deal with properties of the most common electrolytes and electrodes, yet co-sintering effects and interactions between layers are still not fully comprehended. In this contribution the overall elastic performance of the cell has been investigated, focusing on the role that the interface between layers plays in the changing of resulting mechanical properties. To enable this investigation, layers were added to the electrolyte one by one, thus allowing individual interactions to be distinguished with the help of numerical simulations. Results obtained for consecutive samples through different techniques have been compared and discussed.
English abstract
SOCs (Solid Oxide Cells) operate in harsh conditions and have to withstand considerable static and cyclic stresses, both mechanical and thermal. Thus, their mechanical stability is threatened. One fundamental aspect is the structural integrity of the cell. In fact, mechanical failure of a single cell can damage the whole stack, reducing the lifetime and the efficiency of the entire system. This study focuses on the ceramic layered structure of an Yttria-stabilized electrolyte supported cell. Its elastic modulus has been measured through destructive and nondestructive techniques (three-point bending test, impulse excitation technique, tensile test). Many literature sources deal with properties of the most common electrolytes and electrodes, yet co-sintering effects and interactions between layers are still not fully comprehended. In this contribution the overall elastic performance of the cell has been investigated, focusing on the role that the interface between layers plays in the changing of resulting mechanical properties. To enable this investigation, layers were added to the electrolyte one by one, thus allowing individual interactions to be distinguished with the help of numerical simulations. Results obtained for consecutive samples through different techniques have been compared and discussed.
Keywords in English
elastic constants, finite element analysis, fuel cells, layered ceramics
Released
31.03.2018
Publisher
Wiley
Location
USA
ISSN
1744-7402
Volume
2017
Number
1
Pages from–to
370–379
Pages count
10
BIBTEX
@article{BUT141135,
author="Alessia {Masini} and Filip {Šiška} and Oldřich {Ševeček} and Zdeněk {Chlup} and Ivo {Dlouhý},
title="Elastic properties of multi-layered ceramic systems for SOCs",
year="2018",
volume="2017",
number="1",
month="March",
pages="370--379",
publisher="Wiley",
address="USA",
issn="1744-7402"
}