Yeong‐Shyung Chou scite author profile

Refractory" Sr-Ca-Y-B-Si sealing glasses were developed for solid oxide fuel cells ͑SOFCs͒. The objective was to develop sealing glasses with appropriate thermal properties and minimal interfacial reactions with SOFC stack components, particularly ceramic electrolytes and metallic interconnects. The new glasses are described as refractory because their sealing temperatures ͑Ͼ950°C͒ are higher than traditional sealing temperatures for intermediate-temperature SOFC stacks ͑Ͻ850°C͒. Six glasses were formulated and made by a conventional glass-making process. The glasses exhibited rapid crystallization kinetics during intermediate temperature heat-treatments. Their thermal properties were characterized in both the initial glassy state and the final crystallized state. Candidate glasses were also aged for 1000-2000 h at elevated temperatures. Thermal expansion measurements showed minimal change after aging. One candidate glass ͑YSO-1͒ was used to seal anode-supported electrolyte membranes to metallic interconnects at temperatures ranging from 900 to 1050°C in air. Microstructure analysis revealed the presence of SrCrO 4 near the glass-ceramic/metal interface. The effect of composition on thermal properties and a possible reaction mechanism for the chromate formation are discussed.

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Effect of aluminizing of Cr-containing ferritic alloys on the seal strength of a novel high-temperature solid oxide fuel cell sealing glass

Chou

Stevenson

Singh

2008

Journal of Power Sources

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Thermal cycling and degradation mechanisms of compressive mica-based seals for solid oxide fuel cells

Chou

Stevenson

2002

Journal of Power Sources

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