RESUMO
To provide a reliable integration of components within a solid oxide electrolysis cell stack, it is fundamental to evaluate the mechanical properties of the glassâ»ceramic sealing materials, as well as the stability of the metalâ»glassâ»ceramic interface. In this work, the mechanical behavior of two previously developed glassâ»ceramic sealants joined to Crofer22APU steel is investigated at room temperature, 650 °C, and 850 °C under shear load. The mechanical properties of both the glassâ»ceramics showed temperature dependence. The shear strength of Crofer22APU/glassâ»ceramic/Crofer22APU joints ranged from 14.1 MPa (20 °C) to 1.8 MPa (850 °C). The elastic modulus of both glassâ»ceramics also reduced with temperature. The volume fraction of the crystalline phases in the glassâ»ceramics was the key factor for controlling the mechanical properties and fracture, especially above the glass-transition temperature.