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Extractive Metallurgy Division - Intrepretation of Vacuum Gas Test Results for Aluminum AlloysBy K. J. Brondyke, P. D. Hess
Lack of correlation between densities of aluminum alloy samples solidified under reduced pressure (vacuum gas test) and hydrogen content of the metal is explained on the basis of inclusions serving as
Jan 1, 1964
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Extractive Metallurgy Division - Kinetic and Equilibrium Studies of Redox Reactions in Liquid BismuthBy D. H. Gurinsky, D. G. Schweitzer
The empirical equilibrium constantsd the heat of reaction for the reduction have been determined from 300° to 500°C. The mechanisms of the oxidation of uranium and magnesium fro
Jan 1, 1962
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Extractive Metallurgy Division - Kinetics of the Platinum-Catalyzed Hydrogen Reduction of Aqueous Cobalt Sulfate-Ammonium Acetate SolutionBy Milton E. Wadsworth, R. Ted Wimber
Cobalt sulfate solutions containing ammonium acetate and chloroplatinic acid were reduced by hydrogen in a pyrex-glass lined autoclave in the temperature range of 170o to 232°C and hydrogen partial pr
Jan 1, 1962
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Extractive Metallurgy Division - Kinetics of the Thermal Decomposition of Cupric Sulfate and Cupric OxysulfateBy P. Marier, T. R. Ingraham
When anhydrous cupric sulfate is heated in a stream of nonreactive gas, cupric oxysulfate is formed. When this reaction is complete, the cupric oxysulfate then decomposes to cupric oxide, which is the
Jan 1, 1965
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Extractive Metallurgy Division - Low Pressure Distillation of Zinc from Al-Zn AlloyBy M. J. Spendlove, H. W. St. Clair
The problem frequently arises, particularly in refining metals or smelting scrap metals, of separating metals in the metallie state. Many metals may be separated by taking advantage of their differenc
Jan 1, 1950
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Extractive Metallurgy Division - Magnesium-Tin Phase Diagram and Thermodynamic Properties of Liquid Magnesium-Tin AlloysBy A. Steiner, E. Miller, K. L. Komarek
Equations have been derived to calculate the chemical potentials of the components of liquid binary alloys from liquidus and enthalpy data. The equations are applicable to systems with intermetal-lic
Jan 1, 1964
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Extractive Metallurgy Division - Magnetite in the Hurley Copper SmelterBy H. W. Mossman
Three aspects of magnetite smelting are discussed. The first is the working out of equilibrium conditions for eliminating sulfur. The second is the influence of magnetite solubility on the difficulty
Jan 1, 1957
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Extractive Metallurgy Division - Mass Transfer of Hydrogen Between Liquid Aluminum and Bubbles of Argon GasBy Robert D. Pehlke, Arden L. Bement
A mass transfer coefficient for the removal of hydrogen from liquid aluminum by inert flush degassing has been determined experimentally at 700°C. A mathematical model has been derived, assuming trans
Jan 1, 1962
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Extractive Metallurgy Division - Mechanism of the Reduction of Oxides and Sulphides to MetalsBy Carl Wagner
AT elevated temperatures. most metals react with oxygen, sulphur, or halogen rather rapidly, although a coherent layer of the reaction product is formed and separates the two reactants from each other
Jan 1, 1953
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Extractive Metallurgy Division - Melting of Malleable Nickel and Nickel AlloysBy C. G. Bieber, R. F. Decker
The effects of minor constituents on the malleability of nickel alloys are described. These effects are related to the atomic diameter, valence, and position on the Periodic Table. The basic methods f
Jan 1, 1962
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Extractive Metallurgy Division - Metallic Materials Resistant to Molten ZincBy W. Hodge, A. F. Haskins, R. M. Evans
Refractory boron compounds are shown to resist corrosion by molten zinc. Coatings were made from ferroboron and manganese boron by several methods: welding, hard facing, and pack diffusion; and techni
Jan 1, 1956
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Extractive Metallurgy Division - Metallurgical Reactions of FluoridesBy Herbert H. Kellogg
Graphs representing the standard free-energy of formation as a function of temperature for 21 fluorides are presented, along with estimated values for the standard free-energy of formation of 20 ateda
Jan 1, 1952
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Extractive Metallurgy Division - Methods for Separating Rare-Earth Elements In Quantity as Developed at Iowa State CollegeBy J. E. Powell, F. H. Spedding
WHILE rare earths are reported to be widely distributed in nature and are not really rare," in practice, there are only a few minerals which are sufficiently rich in rare earths to serve
Jan 1, 1955
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Extractive Metallurgy Division - Modern Baghouse Practice for the Recovery of Metallurgical FumesBy A. L. Labbe, J. J. Donoso
Hard-won experience in the operation of smelting plants has pointed the way to the most efficient design and economical operation of a baghouse system for recovery of metallurgical fumes. This paper t
Jan 1, 1951
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Extractive Metallurgy Division - Nao-TiCl2-TiCl3 Equilibrium in NaCl MeltsBy Alex Boozenny
The results of potential measurements between 1) a titaniurn electrode in NaCl-TiCl, melts and a graphite-cizlorine reference electrode and 2) a titanium electrode in NaC1-Nu "melts and a graphite-chl
Jan 1, 1962
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Extractive Metallurgy Division - New Tough Pitch Continuous Copper Melting and Casting Unit at Asarco's Perth Amboy PlantBy J. R. Stone, G. D. Storm
Design features and operating methods of ASARCO's new unit for the continuous melting and casting of tough pitch copper at Perth Amboy are described. Preliminary studies made for determinitzg e
Jan 1, 1961
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Extractive Metallurgy Division - Operations at New Cornelia Copper Smelter of Phelps Dodge CorporationBy J. W. Byrkit
Design features and operating methods at the new Ajo smelter are described in detail. Successful operation of a novel method of handling and charging wet concentrates to a deep bath type reverberator
Jan 1, 1954
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Extractive Metallurgy Division - Oxidation of Sphalerite by Sulfur TrioxideBy A. W. Sommer, H. H. Kellogg
It is shown that SO3-O2 mixtures react with sphalerite at an appreciable rate ill the temperature range of 361° to 527°C to fornz ZnSO4. The rate of reaction follows a parabolle lax. Oxygen, or O2-SO
Jan 1, 1960
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Extractive Metallurgy Division - Petrology of High Titanium SlagsBy H. Sigurdson, C. H. Moore
Extensive studies have been carried out on electric furnace and blast furnace slags obtained in the winning of iron from its ores. These slags normally consist of elements of the gangue minerals prese
Jan 1, 1950
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Extractive Metallurgy Division - Phase Relations in the System CoO-SiO2 (TN)By Arnulf Muan, D. P. Masse
PHASE relations in the system CoO-SiO2 have been determined as a basis for further investigations of thermodynamic properties of olivine solid solutions involving Co2SiO4 as a component. Previous d
Jan 1, 1965