Two Ag–Cu–Ti brazing alloy compositions were studied as gas seals for solid oxide fuel cells (SOFCs). Yttria-stabilized zirconia pellets were bonded using Ag–35.25Cu–1.75Ti (Cusil-ABA) or Ag–20.1Cu–1.0Ti (average composition; Ag-Cusil). Both as-brazed filler metals contained metallic Ag and Cu phases, along with continuous titanium oxide layers at the filler metal-zirconia interfaces. The brazed joints were then aged at 700°C for up to 100h in air or while separating H2 and air atmospheres. After annealing in air for 100h at 700°C, degradation in microstructure and hermeticity was more pronounced in Cusil-ABA. However, in H2-air atmosphere, Cusil-ABA performed better than Ag-Cusil. Ag-Cusil aged in H2 air delaminated from zirconia and its microstructure showed large interconnected pores in Ag-rich regions. The results were confirmed by single-cell tests using each filler metal as a gas seal. Observations of the post-test Cusil-ABA microstructure revealed little degradation. These results indicate that Cusil-ABA is better suited than Ag-Cusil as a SOFC gas seal.

Issue Section:
Research Papers
Keywords:
annealing, brazing, copper alloys, hermetic seals, sealing materials, silver alloys, solid oxide fuel cells, titanium alloys
Topics:
Brazing, Filler metals, Sealing (Process), Solid oxide fuel cells, Annealing, Titanium, Metals, Fillers (Materials)
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