Lee A. Cosgrove scite author profile

Lee A. Cosgrove

5Publications

42Citation Statements Received

3Citation Statements Given

How they've been cited

143

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Alcoa (United States)

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Electrical Conductivity and Density of Molten Cryolite with Additives

Edwards

Taylor

Cosgrove

et al. 1953

J. Electrochem. Soc.

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The electrical conductivities at 1000°C, expressed as per cent of the cryolite value, for cryolite containing 10 weight per cent of the following substances are: sodium fluoride 112, calcium fluoride 96, aluminum fluoride 91, and alumina 83. For pure sodium fluoride at 1000°C, conductivity is 5.52 ohm−1cm−1, compared to 2.80 ohm−1cm−1 for cryolite. Molar conductance decreases linearly with mole per cent sodium fluoride, aluminum fluoride, alumina, or calcium fluoride addition to cryolite. The activation energy for conductance, calculated from a plot of the Arrhenius equation, is about 4.3 kcal/mole for the systems of cryolite with sodium fluoride, aluminum fluoride, and alumina, as well as for pure sodium fluoride, but is slightly higher for the cryolite‐calcium fluoride system. This value agrees reasonably with the 4.48 kcal/mole for pure chryolite. Densities in these systems change linearly with temperature, that for pure sodium fluoride following the equation 2.567–0.610×10−3 t . The stability of the complex normalNaF·×Na3AlF6 is indicated by a density maximum.

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The Heat of Formation of Beryllium Oxide¹

Cosgrove¹,

Snyder²

1953

J. Am. Chem. Soc.

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Porosity of Anodic Oxide Coatings on Aluminum. Comparison of n-Butane and Krypton Sorption

Cosgrove¹

1956

J. Phys. Chem.

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High Temperature Thermodynamic Properties of Molybdenum Trioxide¹

Cosgrove¹,

Snyder²

1953

J. Am. Chem. Soc.

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Pore Size Distribution of Porous Aluminum Oxides by Mercury Porosimeter and n-Butane Sorption

Cochran¹,

Cosgrove²

1957

J. Phys. Chem.

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Lee A. Cosgrove

Electrical Conductivity and Density of Molten Cryolite with Additives

The Heat of Formation of Beryllium Oxide¹

Porosity of Anodic Oxide Coatings on Aluminum. Comparison of n-Butane and Krypton Sorption

High Temperature Thermodynamic Properties of Molybdenum Trioxide¹

Pore Size Distribution of Porous Aluminum Oxides by Mercury Porosimeter and n-Butane Sorption

Contact Info

Product

Resources

About

Lee A. Cosgrove

Electrical Conductivity and Density of Molten Cryolite with Additives

The Heat of Formation of Beryllium Oxide1

Porosity of Anodic Oxide Coatings on Aluminum. Comparison of n-Butane and Krypton Sorption

High Temperature Thermodynamic Properties of Molybdenum Trioxide1

Pore Size Distribution of Porous Aluminum Oxides by Mercury Porosimeter and n-Butane Sorption

Contact Info

Product

Resources

About

The Heat of Formation of Beryllium Oxide¹

High Temperature Thermodynamic Properties of Molybdenum Trioxide¹