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Institute of Metals Division - Thermal Expansion Coefficients for Iron and Its Oxides from X- Ray Diffraction Measurements at Elevated TemperaturesBy Alan T. Gorton, T. L. Joseph, Gust Bitsianes
High-temperature X-ray diffraction techniques were used to determine thermal expansion coefficients of iron and its oxides. Lattice parameters of a and iron, wiistite, magnetite, hematite, and goethi
Jan 1, 1965
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Institute of Metals Division - Thermal Expansion of Beta Titanium (TN)By D. N. Williams
THE present study was undertaken with two specific objectives: measurement of the thermal-expansion coefficient of ß titanium and examination of the effect of solid-solution alloying on the thermal ex
Jan 1, 1962
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Institute of Metals Division - Thermal Expansion of CdS from 26° to 1000°KBy B. A. Kulp, R. R. Reeber
Lattice parameters for the wurtzite form of' CdS mere measured by powder X-ray diffraction techniques over the temperature range 26° to 1000 K'. A negative thermal -expansion coefficient was
Jan 1, 1965
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Institute of Metals Division - Thermal Expansion of Titanium and Some Ti-O AlloysBy R. J. Wasilewski
Axial expansion has been determined by X-ray diffraction up to 600° to 760°C in a titanium and four high-oxygen alloys. Expansion data cannot be fitted to the usual quadratic expression and anomali
Jan 1, 1962
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Institute of Metals Division - Thermal Stability of Cu-SiO2 and CuAl2O3 AlloysBy Nicholas J. Grant, Noboru Komatsu
Metallographic and X-ray studies were made of oxide dispersion strengthened Cu-12 vol pet SiO2 and Cu-3.5 vol pet Al2O3 alloys following time exposures at temperatures approaching the melting. point o
Jan 1, 1962
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Institute of Metals Division - Thermal Stability of the Chromium, Iron, and Tungsten Borides in Streaming Ammonia and the Existence of a New Tungsten NitrideBy Y. H. Liu, R. Kiessling
The chromium, iron, and tungsten borides have been treated with ammonia at different temperatures. They are attacked, forming metal nitride and boron nitride, and the results are summarized in the t
Jan 1, 1952
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Institute of Metals Division - Thermal-Beam Energy and Nucleation of Metal Crystals on SubstratesBy S. J. Hruska, G. M. Pound
The critical supersaturations for appreciable nucleation rate of cadmium crystals on copper and glass substrates at 186°Kwere measured as a junction of thermal-beam energy over a range of source tempe
Jan 1, 1964
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Institute of Metals Division - Thermodynamic Activities in the Fe-Mn-C SystemBy J. F. Butler, H. W. Paxton
The vapor pressures of manganese in equilibrium with several alloys in the iron-manganese-carbon system between 1200° and 1275°K have been measured using the Knudsen effusion technique in conjunction
Jan 1, 1962
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Institute of Metals Division - Thermodynamic Activities of Solid Nickel-Aluminum AlloysBy A. Steiner, K. L. Komarek
Activities of aluminum in solid Ni-A1 alloys have been determined between 20 and 60 at. pet Al and 1200" and 1400°K by an isopiestic method in which nickel specimens, heated in a temperature gradient,
Jan 1, 1964
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Institute of Metals Division - Thermodynamic Properties and Lattice Parameters of Hafnium-Oxygen AlloysBy P. A. Farrar, M. D. Silver, K. L. Komarek
Thermodynamic properties of Hf-0 alloys have been determined from 0 to 25 at. pct 0 between 1000" and 1200°K by equilibrating specimens with alkaline metal oxide-metal vapor combinations. Partial mola
Jan 1, 1963
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Institute of Metals Division - Thermodynamic Properties of Solid Fe-Au AlloysBy L. L. Seigle
Free energies, heats, and entropies of mixing of solid Fe-Au alloys have been measured by the galvanic cell method between 800° and 900°C. A positive deviation from Raoult's law and a large exces
Jan 1, 1957
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Institute of Metals Division - Thermodynamic Properties of Solid Iron-Aluminum AlloysBy J. Eldridge, K. L. Komarek
Activities of aluminum in solid Fe-Al alloys have been determined between 0 and 75 at, pct Al and 1100" and 1400°K by an isopiestic method in which iron specimens, heated in a temperature gradient, ar
Jan 1, 1964
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Institute of Metals Division - Thermodynamic Properties of solid Nickel-Gold AlloysBy B. L. Averbach, Morris Cohen, L. L. Seigle
Free energies, enthalpies, and entropies of mixing of Ni-Au solid solutions containing 5 to 95 atomic pct Ni have been determined by the electromotive force method at 700° to 900°C. The thermodynamic
Jan 1, 1953
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Institute of Metals Division - Thermodynamic Properties of Solid Vanadium-Chromium AlloysBy A. T. Aldred, K. M. Myles
The vapor pressure of chromium over solid V-Cr alloys has been measured by the torsion-effusion method in the temperature range 1450" to 1650°K. The chemical activities as well as the free energies, e
Jan 1, 1964
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Institute of Metals Division - Thermodynamic Properties of the Silver - Silicon SystemBy John P. Huger
me phase diagram for the system Ag-Si has been established by thermal analysis. The diagram is a simple eutectic type with a eutectic at 3.0 pct Si and 840°C. From the liquidus curve and with the aid
Jan 1, 1963
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Institute of Metals Division - Thermodynamic Properties of Titanium-Oxygen-Hydrogen AlloysBy M. T. Hepworth, R. Schuhmann
Hydrogen solubility measurements were made on a series of Ti-O alloys, and a portion of the 800°C isotherm for the Ti-O-H system was determined. Activities of oxygen and titanium were calculated from
Jan 1, 1962
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Institute of Metals Division - Thermodynamic Treatment of Disproportionation Equilibria Involving Complex Ion Formation in Molten SaltsBy J. M. Toguri, K. Grjotheim
It is known 1,2 that the equilibrium between titanium metal, TiCl2 , and TiCl3, in a solvent of molten metal chlorides, is influenced both by the total amount of dissolved titanium and by the type of
Jan 1, 1960
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Institute of Metals Division - Thermodynamics of Dislocation Mobility and the Third-Law Analysis of the Activation ProcessBy James C. M. Li
The thermodynamics of the set of functions including the activation enthalpy. the activation free energy, and the activation entropy for the motion of dislocations at low temperatures is formulated wi
Jan 1, 1965
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Institute of Metals Division - Thermodynamics of Interstitial Solid Solutions with Repulsive Solute-Solute InteractionsBy Kenneth A. Moon
An exact statistical treatment of a one-dimensional model is used as a basis for evoluating the reliability of certain simplified expressions for the activity of the solute in interstitial solutions,
Jan 1, 1963
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Institute of Metals Division - Thermodynamics of the Primary Solid Solution of Tin in AntimonyBy C. Ernest Birchenall, Gerd M. Rosenblatt
The pressure and molecular weight of the antimony vapor over solid solutions of tin in antimony, containing 97.4, 94.9, 93.0, and 90.7 at. pct Sb, have been measured from 445° to 545°C by the torsion-
Jan 1, 1962