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IGR NO[sub x]/SO[sub x] control technology
The technical work during this reporting term has principally involved the continued development, optimization and improvement of freezing drying techniques for solid ceramic oxide electrolyte powder preparation, preliminary optimization of the calcining of the ceramic electrolyte freeze dried powders to allow for optimum processing to the IGR composite, and determining (initial) electrochemical properties of the stabilized ceramic solid electrolyte at a variety of temperatures in air.
Date:
April 25, 1993
Creator:
unknown
System:
The UNT Digital Library
IGR NO{sub x}/SO{sub x} control technology. Second technical progress report, January 1--March 31, 1993
The technical work during this reporting term has principally involved the continued development, optimization and improvement of freezing drying techniques for solid ceramic oxide electrolyte powder preparation, preliminary optimization of the calcining of the ceramic electrolyte freeze dried powders to allow for optimum processing to the IGR composite, and determining (initial) electrochemical properties of the stabilized ceramic solid electrolyte at a variety of temperatures in air.
Date:
April 25, 1993
Creator:
unknown
System:
The UNT Digital Library