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Intrinsic creep resistance of two solid oxygen fuel cell electrolytes : cubic zirconia versus doped lanthanum gallate.

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Format:
Book
Government document
Author/Creator:
Wolfenstine, Jeff, author.
Contributor:
U.S. Army Research Laboratory, issuing body.
Series:
ARL-TN ; 133.
ARL-TN ; 33
Language:
English
Subjects (All):
Fuel cells--Materials--Creep.
Fuel cells.
Zirconium oxide--Creep.
Zirconium oxide.
Lanthanum gallate--Creep.
Lanthanum gallate.
Genre:
Online resources.
Physical Description:
1 online resource (iii 9 pages) : illustration
Place of Publication:
Adelphi, MD : Army Research Laboratory, March 1999.
Summary:
Knowledge of the creep parameters for cubic zirconia and doped lanthanum gallate allowed for a determination of the intrinsic creep resistance of each material in the temperature range from 800 to 1000 deg C, where they are to be utilized as electrolytes in solid oxygen fuel cells. The results revealed that the intrinsic creep resistance of cubic zirconia is much higher than that of doped lanthanum gallate. This is most likely a result of their different crystal structures.
Notes:
Online resource, PDF version; title from title page (ARL web site, viewed on February 21, 2017).
Includes bibliographical references (page 5).
Other Format:
Print version: Intrinsic Creep Resistance of Two Solid Oxygen Fuel Cell Electrolytes: Cubic Zirconia Versus Doped Lanthanum Gallate
OCLC:
227891123

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