Characterization of anisotropic gas permeability and thermomechanical properties of highly textured porous alumina

Porous alumina with a highly textured microstructure was fabricated by pulse electric current sintering (PECS) using alumina platelets. Highly oriented porous alumina with a porosity of 3%–50% was obtained by a pressure‐controlled method of PECS. The properties of the highly textured porous alumina...

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Bibliographic Details
Published in:Journal of the American Ceramic Society 2022-10, Vol.105 (10), p.6335-6344
Main Authors: Honda, Sawao, Hashimoto, Shinobu, Nait‐Ali, Benoît, Smith, David S., Daiko, Yusuke, Iwamoto, Yuji
Format: Article
Language:English
Subjects:
Alumina
Aluminum oxide
Anisotropy
Bend strength
Chemical Sciences
Grain size
Heat conductivity
Heat transfer
Permeability
Platelets
Porosity
porous materials
Room temperature
Sintering (powder metallurgy)
Stress analysis
Thermal conductivity
Thermal shock
thermal shock/thermal shock resistance
Thermal stress
Thermomechanical properties
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Summary:Porous alumina with a highly textured microstructure was fabricated by pulse electric current sintering (PECS) using alumina platelets. Highly oriented porous alumina with a porosity of 3%–50% was obtained by a pressure‐controlled method of PECS. The properties of the highly textured porous alumina were measured in two directions. The nitrogen gas permeance and thermal conductivity at room temperature were higher in the direction along the platelet length due to the higher continuity of pores and the connectivity of alumina platelets, respectively. The anisotropy of the thermal conductivity at room temperature was investigated and explained by the effect of grain size of platelets as well as morphology and orientation of pores. The bending strength was higher with the loading direction along the platelet thickness. The thermal shock strength was clearly different in the two directions. The difference in the thermal shock strength was investigated by the measurement of properties and thermal stress analysis.
ISSN:0002-7820
1551-2916
DOI:10.1111/jace.18573