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Institute of Metals Division - The Cerium-Copper SystemBy P. A. Tucker, T. B. Rhinehammer, D. E. Etter, J. E. Selle
The Ce-Cu phase diagram was investigated by differential thermal analysis and rnetallography. Two congruent melting compounds, CeCu2 (817°C) and CeCua (938°C), and three incongruent cornpounds, CeCu (
Jan 1, 1964
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Institute of Metals Division - The Changes in Internal Energy of a Copper-Aluminum Alloy and a Copper-Zinc Alloy Resulting from Deformation and Recovery near 25°By R. O. Williams
Measurements have been made of the internal energy of deformation in a Cu-A1 alloy and a Cu-Zn alloy as the deference between the work and the released heat. The method required the rapid compression
Jan 1, 1963
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Institute of Metals Division - The Cold Rolled Texture of TitaniumBy D. S. Eppelsheimer, D. N. Williams
The cold rolled textures of iodide titanium and of three samples of commercial titanium were examined using the Schulz-Decker Geiger counter technique. The iodide titanium and two of the three samples
Jan 1, 1954
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Institute of Metals Division - The Columbium-Hydrogen Constitution DiagramBy R. J. Walter, W. T. Chandler
The Ch-H phase diagram was determined for by-drogen concentrations up to ChHo.9 at temperatures below 400°P'. The phase diagram includes a mis-cibility gap and a eutectoid transformation. A peri-
Jan 1, 1965
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Institute of Metals Division - The Combined Effects of Oxygen and Hydrogen on the Mechanical Properties of ZirconiumBy D. G. Westlake
Polycrystalline tensile specimens of various Zr-0-H alloys have been tested at 298°, 178°, and 77°K. Solute oxygen and hydride precipitates in quenched alloys made individual contributions to the yiel
Jan 1, 1965
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Institute of Metals Division - The Comparative Creep Properties of Several Types of Commercial CoppersBy A. D. Schwope, L. R. Jackson, K. F. Smith
Burghoff and Blank1 have pointed out that the creep properties of hard-drawn coppers are closely associated with their individual softening characteristics and have further shown that the creep resist
Jan 1, 1950
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Institute of Metals Division - The Constitution Diagram Niobium (Columbium) – RheniumBy Nicholas J. Grant, Rolf Nordheim, Bill C. Gissen
The system Cb-Re was examined in detail utilizing pure metals, careful melting techniques, and heat treatments. Metallographic and X-my methods were utilized for phase identification. In addition to
Jan 1, 1962
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Institute of Metals Division - The Constitution Diagram Tantalum-IridiumBy Nicholas J. Grant, William H. Ferguson, Bill C. Giessen
Ta-lr alloys have been examined over the complete range of compositions using metallographic and X-ray techniques. The terminal solid-solubility limits, solidus temperatures, and intermediate phases w
Jan 1, 1963
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Institute of Metals Division - The Constitution Diagram Tantalum-RhodiumBy Nicholas J. Grant, Hanna Ibach, Bill C. Giessen
The system Ta-Rh was investigated over the entire comnposition range using metallogvaphic and X-ray techniques as well as thermal analysis. Terminal solubility limits, solidus temperatures, and the cr
Jan 1, 1964
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Institute of Metals Division - The Constitution of Delta- Phase Alloys of the System Uranium- Zirconium-MolybdenumBy A. A. Bauer, M. S. Farkas, F. A. Rough
An investigation of the d-phase relationships between the uranium-zirconium and uranium-molybdenum systems was conducted. A ternary cut joining U-31.5 at. pct Mo to U-74 at. pct Zr is presented on the
Jan 1, 1960
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Institute of Metals Division - The Control of Annealing Texture by Precipitation in Cold-Rolled IronBy W. C. Leslie
The textures of cold-rolled and of annealed iron are compared with those of an iron-0.8 pct copper alloy in which the amount of precipitation after cold rolling was controlled. Previously published po
Jan 1, 1962
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Institute of Metals Division - The Cooling Transformations in the Beta Eutectoid Alloys of the Cu-A1 SystemBy E. P. Klier, Jane Jellison
The course of the transformations on cooling in a series of Cu-A1 alloys has been followed by means of thermal analysis, X-ray diffraction, and optical metallogrAphy. Specimen size was found to have a
Jan 1, 1965
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Institute of Metals Division - The Correlation of High-Temperature Properties and Structures in 1 Cr-Mo-V Forging SteelsBy R. M. Goldhoff, H. J. Beattie
The high-temperature properties of a 1 Cr-Mo-V forging steel are described. A series of controlled heat treatments was designed to delineate the effects of austenitizing and tempering treatments, temi
Jan 1, 1965
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Institute of Metals Division - The Counting and Sizing of Particles in Transmission MicroscopyBy J. E. Hilliard
Various methods are given for estimating the number per unit volume and average size of convex particles from measurements on a projection through a slice of the structure. The determination of the s
Jan 1, 1962
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Institute of Metals Division - The Creep Behavior of Heat Treatable Magnesium Base Alloys for Fuel Element ComponentsBy P. Greenfield, C. C. Smith, A. M. Taylor
The Mg-Zr alloy ZA and Mg-Mn alloy AM503(S) are shown to have a markedly improved resistance to creep deformation after suitable heat treatments. This improvement makes them suitable for certain stres
Jan 1, 1962
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Institute of Metals Division - The Creep Behavior of Heat Treatable Magnesium Base Alloys for Fuel Element Components (Discussion)By P. Greenfield, C. C. Smith, A. M. Taylor
J. E. Harris (Berkeley Nucclear Laboratories, England)—Greenfield et al.11 attribute abrupt changes in slope of their log o/log i curves for heat-treated Mg/0.5 pet Zr alloy (zA) to 'atmosphere&a
Jan 1, 1962
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Institute of Metals Division - The Crystal Structure of MoNi3By S. Saito, P. A. Beck
The crystal structure of MoNi3 was determined by means of X-ray diffraction. This structure is isotype with that of ovgered TiCu3. The lattice parameters are: a. = 5.064A, bo = 4.224A, co = 4.448A, an
Jan 1, 1960
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Institute of Metals Division - The Crystal Structure of Ni4WBy D. Harker, E. Epremian
The constitution of the nickel-tungsten system has been studied by a number of investigators, the most recent of which are Ellinger and Sykes.1 On the basis of metallography, electrical resistivity an
Jan 1, 1950
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Institute of Metals Division - The Crystal Structure of TaNi2 (TN)By Nicholas J. Grant, Bill C. Giessen
The phase diagram Ta-Ni has been treated repeatedly; investigations up to 1958 are summed up in Ref. 1. Since then, an equilibrium diagram has been presented by Kornilov and Pylaeva.2 They found the
Jan 1, 1964
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Institute of Metals Division - The Crystal Structures of TiCd and Ti2Cd (TN)By B. S. Tani, R. V. Schablaske, M. G. Chasanov
In the Ti-Cd system two intermediate phases, TiCd and Ti Cd, have been found and characterized by X-ray diffraction powder techniques. An earlier reference' had reported the existence of the comp
Jan 1, 1962