Abstract
Abstract In this work, we show that a promising sealant for the use in solid oxide fuel cell and electrolysis stacks can be obtained by combing a conventional silver-based braze with eucryptite (LiAlSiO4), a negative thermal expansion coefficient material. The thermo-mechanical properties of the Ag2CuO-LiAlSiO4 system and the microstructure as a function of the LiAlSiO4 content are investigated. By adding 8 wt% of the LiAlSiO4 filler, the coefficient of thermal expansion of the Ag2CuO braze is lowered from 19.6 × 10−6 K−1 to 12.2 × 10−6 K−1 (25–800 °C). The aluminized Crofer 22 H is brazed to the gadolinium-dope ceria electrolyte of the solid oxide cell by employing the composite braze. The obtained joints are defect free and display low leak rates (1.2–1.4 × 10−3 sccm cm−1). The leak rate and structural integrity of the joints are retained after aging tests at 800 °C for 300 h, indicating excellent stability of the sealant.
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