A procedure and instruments are developed for the strength analyses of disk ceramic specimens under the conditions of biaxial bending according to the ring–ring scheme at high temperatures (up to 800°C) in a working hydrogen-containing medium of a solid-oxide fuel cell with continuous measuring of the physical characteristics of materials (electric resistivity and conductivity) as functions of time.
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W. Fischer, J. Malzbender, G. Blass, et al., “Residual stresses in planar solid oxide fuel cells,” J. Power Sources, 150, 73–77 (2005).
W.-H. Lai, C.-A. Hsiao, C.-H. Lee, et al, “Experimental simulation on the integration of solid oxide fuel cell and microturbine generation system,” J. Power Sources, 171, 130–139 (2007).
Tentative Test Method for Biaxial Flexure Strength (Modulus of Rupture) of Ceramic Substances, Standard F394-74T, ASTM Committee F-1 on Electronics.
R. Thiruvengadaswamy and R. O. Scattergood, “Biaxial flexure testing of brittle materials,” Scr. Metallurg. Mater., 25, No. 11, 2529–2537 (1991).
M. Radovic and E. Lara-Curzio, “Mechanical properties of tape cast nickel-based anode materials for solid oxide fuel cells before and after reduction in hydrogen,” Acta Mater., 52, 5747–5756 (2004).
G. S. Pisarenko, Strength of Materials [in Russian], Vyshcha Shkola, Kiev (1986).
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Translated from Fizyko-Khimichna Mekhanika Materialiv, Vol. 45, No. 4, pp. 89–92, July–August, 2009.
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Vasyliv, B.D. A procedure for the investigation of mechanical and physical properties of ceramics under the conditions of biaxial bending of a disk specimen according to the ring–ring scheme. Mater Sci 45, 571–575 (2009). https://doi.org/10.1007/s11003-010-9215-2
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DOI: https://doi.org/10.1007/s11003-010-9215-2