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http://dx.doi.org/10.4191/KCERS.2006.43.12.768

Electrical and Mechanical Characteristics of Ni-YSZ Tubular Support Fabricated by Extrusion  

Yu, Ji-Haeng (Energy Materials Research Center, Korea Institute of Energy Research)
Kim, Young-Woon (Energy Materials Research Center, Korea Institute of Energy Research)
Park, Gun-Woo (Energy Materials Research Center, Korea Institute of Energy Research)
Seo, Doo-Won (Energy Materials Research Center, Korea Institute of Energy Research)
Lee, Shi-Woo (Energy Materials Research Center, Korea Institute of Energy Research)
Woo, Sang-Kuk (Energy Materials Research Center, Korea Institute of Energy Research)
Publication Information
Journal of the Korean Ceramic Society / v.43, no.12, 2006 , pp. 768-774 More about this Journal
Abstract
The microstructure of Ni-YSZ cermets was controlled with fine and coarse starting powders (NiO and YSZ) to obtain a optimum strong and conductive tubular anode support for SOFCs. Three types of cermets with different microstructures, i.e., coarse Ni-fine YSZ, fine Ni-coarse YSZ, and fine Ni-fine YSZ, were fabricated to investigate their electrical and mechanical properties. The cermets from fine NiO powder showed high electrical conductivity due to the enhanced percolation of Ni particles. The cermet by foe Ni and coarse YSZ showed excellent electrical conductivity (>1000 S/cm) despite its high porosity $(\sim40%)$ but it showed poor mechanical strength due to the lack of percolation by YSZ particles and due to large pores. Thus fine NiO and YSZ powders were used to make strong and conductive Ni-YSZ support tube by extrusion. The microstructure of the anode tube was modified by the amount of polymeric additives and carbon black, a pore former. Ni-YSZ tube (porosity $\sim34%$) with the finer microstructure showed better performance both in electrical conductivity (>1000 S/cm) and fracture strength $(\sim140\;MPa)$. Either flat or circular NiO-YSZ tubes with the length from 20 to 40cm were successfully fabricated with the optimized composition of materials and polymeric additives.
Keywords
SOFC anode; Ni-YSZ; Electrical conductivity; Fracture strength; Microstructure; Extrusion;
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1 M. Stelter, A. Reinert, B. E. Mai, and M. Kuznecov, 'Engineering Aspects and Hardware Verification of a Volume Producable Solid Oxide Fuel Cell Stack Design for Diesel Auxiliary Power Units,' J. Power Sources, 154 448-55 (2006)   DOI   ScienceOn
2 F. Baratto, U. M. Diwekar, and D. Manca, 'Impacts Assessment and Trade-Offs of Fuel Cell-Based Auxiliary Power Units, Part I: System Performance and Cost Modeling,' J. Power Sources, 139 205-13 (2005)   DOI   ScienceOn
3 Y. Du and N. M. Sammes, 'Fabrication and Properties of Anode-Supported Tubular Solid Oxide Fuel Cells,' J. Power Sources, 136 66-71 (2004)   DOI   ScienceOn
4 D. S. McLachlan, M. Blaszkiewicz, and R. E. Newnhan, 'Electrical Resistivity of Composites,' J. Am. Ceram. Soc., 73 [8] 2187-203 (1990)   DOI
5 Q. Xue, 'The Influence of Particle Shape and Size on Electric Conductivity of Metal-Polymer Composites,' Eur. Polymer J., 40 323-27 (2004)   DOI   ScienceOn
6 H. Itoh, N. Sakai, T. Yamamoto, and M. Dokiya, 'Configuration and Electrical Behavior of Ni-YSZ Cermet with Novel Microstructure for Solid Oxide Fuel Cell Anodes,' J. Electrochem. Soc., 144 [2] 641-46 (1997)   DOI
7 S. Kirkpatrick, 'Percolation and Conduction,' Reviews of Modern Physics, 45 [4] 574-88 (1973)   DOI