BaO–B2O3–SiO2–Al2O3 sealing glass for intermediate temperature solid oxide fuel cell

Glasses in the formulation close to BaSiO3–BaB2O4 eutectic compound are developed for sealing of intermediate-temperature (500–650°C) solid oxide fuel cell (IT-SOFC). Thermal and microstructural analyses of the glasses with 0–10mol% Al2O3 are also conducted. Detailed crystallization kinetics and int...

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Published inJournal of non-crystalline solids Vol. 358; no. 2; pp. 174 - 181
Main Authors Lin, S.E., Cheng, Y.R., Wei, W.C.J.
Format Journal Article
LanguageEnglish
Published Oxford Elsevier B.V 15.01.2012
Elsevier
Subjects
Al2O3
Applied sciences
B2O3
BaO
Contact
Cross-disciplinary physics: materials science; rheology
Energy
Energy. Thermal use of fuels
Exact sciences and technology
Formulations
Glass
Glasses (including metallic glasses)
Materials and auxiliary equipments used in energy engineering
Materials science
Physics
Precipitates
Sealing
SiO2
SOFC
Solid oxide fuel cells
Specific materials
Thermal expansion
Yttria stabilized zirconia
BaO
B2O3
SiO2
Al2O3
SOFC
Sealing materials
Aluminium oxide
Crystalline phase
Solid oxide fuel cells
B
Boron oxide
Wetting
Crystallization
Doping
Glass
XRD
Al
Heat treatments
Glass formation
O
Thermal expansion
Quaternary systems
Barium oxide
Silicon oxides
SiO
Kinetics
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Abstract Glasses in the formulation close to BaSiO3–BaB2O4 eutectic compound are developed for sealing of intermediate-temperature (500–650°C) solid oxide fuel cell (IT-SOFC). Thermal and microstructural analyses of the glasses with 0–10mol% Al2O3 are also conducted. Detailed crystallization kinetics and interfacial stability of the glass in contact with yttria-stabilized zirconia (YSZ) and samaria-doped ceria (SDC) are investigated and compared. The results show that the formulation, 47BaO–21B2O3–27SiO2–5Al2O3 (G1A5), performs the best on glass forming ability (GFA) among all tested formulations, and shows matched thermal expansion and working temperature to CeO2-based electrolytes of IT-SOFC. Two major crystalline phases that precipitate from G1A5 above 750°C are platy hexacelsian and BaSiO3 grains. ► We have investigated 7 glass formulations and completed the thermal property tests. ► Detailed kinetics and stability of the glass compatible with YSZ and SDC are also investigated. ► The glass 47BaO-21B2O3-27SiO2-5Al¬2O3, performs the best on glass forming ability (GFA). ► The glasses have the matched CTE and aging properties to CeO2-based electrolyte of IT-SOFC.
AbstractList Glasses in the formulation close to BaSiO3–BaB2O4 eutectic compound are developed for sealing of intermediate-temperature (500–650°C) solid oxide fuel cell (IT-SOFC). Thermal and microstructural analyses of the glasses with 0–10mol% Al2O3 are also conducted. Detailed crystallization kinetics and interfacial stability of the glass in contact with yttria-stabilized zirconia (YSZ) and samaria-doped ceria (SDC) are investigated and compared. The results show that the formulation, 47BaO–21B2O3–27SiO2–5Al2O3 (G1A5), performs the best on glass forming ability (GFA) among all tested formulations, and shows matched thermal expansion and working temperature to CeO2-based electrolytes of IT-SOFC. Two major crystalline phases that precipitate from G1A5 above 750°C are platy hexacelsian and BaSiO3 grains. ► We have investigated 7 glass formulations and completed the thermal property tests. ► Detailed kinetics and stability of the glass compatible with YSZ and SDC are also investigated. ► The glass 47BaO-21B2O3-27SiO2-5Al¬2O3, performs the best on glass forming ability (GFA). ► The glasses have the matched CTE and aging properties to CeO2-based electrolyte of IT-SOFC.
Glasses in the formulation close to BaSiO3-BaB2O4 eutectic compound are developed for sealing of intermediate-temperature (500-650 degree C) solid oxide fuel cell (IT-SOFC). Thermal and microstructural analyses of the glasses with 0-10mol% Al2O3 are also conducted. Detailed crystallization kinetics and interfacial stability of the glass in contact with yttria-stabilized zirconia (YSZ) and samaria-doped ceria (SDC) are investigated and compared. The results show that the formulation, 47BaO-21B2O3-27SiO2-5Al2O3 (G1A5), performs the best on glass forming ability (GFA) among all tested formulations, and shows matched thermal expansion and working temperature to CeO2-based electrolytes of IT-SOFC. Two major crystalline phases that precipitate from G1A5 above 750 degree C are platy hexacelsian and BaSiO3 grains.
Author Lin, S.E.
Wei, W.C.J.
Cheng, Y.R.
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Issue 2
Keywords BaO
B2O3
SiO2
Al2O3
SOFC
Sealing materials
Aluminium oxide
Crystalline phase
Solid oxide fuel cells
B
Boron oxide
Wetting
Crystallization
Doping
Glass
XRD
Al
Heat treatments
Glass formation
O
Thermal expansion
Quaternary systems
Barium oxide
Silicon oxides
SiO
Kinetics
Language English
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Snippet Glasses in the formulation close to BaSiO3–BaB2O4 eutectic compound are developed for sealing of intermediate-temperature (500–650°C) solid oxide fuel cell...
Glasses in the formulation close to BaSiO3-BaB2O4 eutectic compound are developed for sealing of intermediate-temperature (500-650 degree C) solid oxide fuel...
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StartPage 174
SubjectTerms Al2O3
Applied sciences
B2O3
BaO
Contact
Cross-disciplinary physics: materials science; rheology
Energy
Energy. Thermal use of fuels
Exact sciences and technology
Formulations
Glass
Glasses (including metallic glasses)
Materials and auxiliary equipments used in energy engineering
Materials science
Physics
Precipitates
Sealing
SiO2
SOFC
Solid oxide fuel cells
Specific materials
Thermal expansion
Yttria stabilized zirconia
Title BaO–B2O3–SiO2–Al2O3 sealing glass for intermediate temperature solid oxide fuel cell
URI https://dx.doi.org/10.1016/j.jnoncrysol.2011.09.013
https://search.proquest.com/docview/963893987
Volume 358
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