Abstract
This work describes the performance and testing of a glass-ceramic sealant used to join the ceramic electrolyte (anode-supported-electrolyte (ASE)) to the metallic interconnect (Crofer22APU) in planar SOFC stacks. The designed glass-ceramic sealant is a barium and boron free silica-based glass, which crystallizes by means of the heat-treatment after being deposited on substrates by the slurry technique. Joined ASE/glass-ceramic seal/Crofer22APU samples were tested for 500 h in H2–3H2O atmosphere at the fuel cell operating temperature of 800 °C. Moreover, the joined ASE/glass-ceramic seal/Crofer22APU samples were submitted to three thermal cycles each of 120 h duration, in order to evaluate the thermomechanical stability of the sealant. The microstructures and elemental distribution at Crofer22APU/glass-ceramic and ASE/glass-ceramic interfaces were investigated. SEM micrograph observations of joined samples that underwent cyclic thermal tests and exposure for 500 h in H2–3H2O atmosphere showed that the adhesion between the glass-ceramic and Crofer22APU at either interface was very good and no microstructural changes were detected at the interfacial boundaries. The study showed that the use of the glass-ceramic was successful in preventing strong adverse corrosion effects at the Crofer22APU/glass-ceramic sealant interface.
Original language | English |
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Pages (from-to) | 402-407 |
Number of pages | 6 |
Journal | Journal of Power Sources |
Volume | 190 |
Issue number | 2 |
DOIs | |
Publication status | Published - 2009 |
Keywords
- Glass-ceramic
- Fuel cell
- Sealant
- Hydrogen
- Crofer22APU
- SILICATE SEALING GLASS
- STAINLESS-STEEL
- COMPOSITE SEALS
- SOFCS
- INTERCONNECT
- BARIUM
- YSZ
- OXIDATION
- ALLOY