Optimization of La2O3-containing diopside based glass-ceramic sealants for fuel cell applications

abstract

We report on the optimization of La2O3-containing diopside based glass-ceramics (GCs) for sealant applications in solid oxide fuel cells (SOFC). Seven glass compositions were prepared by modifying the parent glass composition, Ca0.8Ba0.1MgAl0.1La0.1Si1.9O6. First five glasses were prepared by the addition of different amounts of B2O3 in a systematic manner (i.e. 2, 5, 10, 15, 20 wt.%) to the parent glass composition while the remaining two glasses were derived by substituting SrO for BaO in the glasses containing 2 wt.% and 5 wt.% B2O3. Structural and thermal behavior of the glasses was investigated by infrared spectroscopy (FTIR), density measurements, dilatometry and differential thermal analysis (DTA). Liquid-liquid amorphous phase separation was observed in B2O3-containing glasses. Sintering and crystallization behavior, microstructure, and properties of the GCs were investigated under different heat treatment conditions (800 and 850 degrees C: 1-300 h). The GCs with >5 wt.% B2O3 showed an abnormal thermal expansion behavior above 600 degrees C. The chemical interaction behavior of the glasses with SOFC electrolyte and metallic interconnects, has been investigated in air atmosphere at SOFC operating temperature. Thermal shock resistance and gas-tightness of GC sealants in contact with 8YSZ was evaluated in air and water. The total electrical resistance of a model cell comprising Crofer 22 APU and 8YSZ plates joined by a CC sealant has been examined by the impedance spectroscopy. Good matching of thermal expansion coefficients (CTE) and strong, but not reactive, adhesion to electrolyte and interconnect, in conjunction with a low level of electrical conductivity, indicate that the investigated GCs are suitable candidates for further experimentation as SOFC sealants. (C) 2009 Elsevier B.V. All rights reserved.

keywords

CRYSTALLIZATION; BARIUM; SOFC

subject category

Chemistry; Electrochemistry; Energy & Fuels; Materials Science

authors

Goel, A; Tulyaganov, DU; Kharton, VV; Yaremchenko, AA; Eriksson, S; Ferreira, JMF

our authors

acknowledgements

This study was financially supported by University of Aveiro, CICECO, FCT, Portugal (SFRH/BD/3703712007) and Swedish Institute, Sweden. Authors are also thankful to Dr. Christopher S. Knee from Gothenburg University, Sweden for his kind assistance in making interaction studies.

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