Robert B. Ford scite author profile

Robert B. Ford

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Conversion of gamma lithium aluminate to lithium aluminum carbonate hydroxide hydrate

Beckerman¹,

Ford²,

Nemeth³

1996

Powder Diffr.

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Gamma-phase lithium aluminate (LiAlO2) is a ceramic powder used in molten carbonate fuel cells (MCFCs) and in other nuclear and ceramic applications. Upon exposure to water vapor and carbon dioxide at 25 °C, we have observed that gamma-LiAlO2 converts to lithium aluminum carbonate hydroxide hydrate, Li2Al4(CO3)(OH)12·3H2O(LACHH) and Li2CO3. The conversion was observed by X-ray diffraction (XRD) and carbonate analysis. An equation for the conversion is given, and the morphology is determined by scanning electron microscopy. A high-temperature XRD study and thermogravimetric/differential thermal analysis (TGA/DTA) showed that LACHH decomposes at 250 °C. The decomposition products of LACHH and Li2CO3 react to form first alpha-LiAlO2 and then gamma-LiAlO2 at temperatures of 650 and 1000 °C, respectively.

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Analysis of Mixtures of Gamma Lithium Aluminate, Lithium Aluminum Carbonate Hydroxide Hydrate, and Lithium Carbonate

Nemeth¹,

Ford²,

Taylor³

1997

MRS Proc.

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Lithium aluminate, LiAIO 2 , is a ceramic powder which is used as the porous solid support for the electrolyte in molten carbonate fuel cells (MCFCs). It has previously been reported that gamma LiA1O 2 will convert to lithium aluminum carbonate hydroxide hydrate, Li 2 Al 4 (CO 3 )(OH) 12 3H 2 0 and Li 2 CO 3 when exposed to water vapor and carbon dioxide. We compare three techniques, weight gain, carbonate content and x-ray diffraction to measure the amount of conversion. The reaction may involve amorphous intermediates and no one technique by itself is satisfactory to study the conversion.

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Robert B. Ford

Conversion of gamma lithium aluminate to lithium aluminum carbonate hydroxide hydrate

Analysis of Mixtures of Gamma Lithium Aluminate, Lithium Aluminum Carbonate Hydroxide Hydrate, and Lithium Carbonate

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