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Institute of Metals Division - Grain Refinement via Electromagnetic Stirring During SolidificationBy G. R. Kotler, W. A. Tiller, H. V. Ashcom, S. O&apos, Hara, W. C. Johnston
The grain-refinement effect of electromagnetic stirring of Sn-Pb alloys during solidification is investigated at higher field strength and in larger-sized samples. It is found that the grain-refining
Jan 1, 1965
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Institute of Metals Division - Grain Size Control During Ingot Solidification Part II: Columnar - Equiaxed TransitionBy W. A. Tiller
The unidirectional freezing of a semiinfinite liquid from one end has been treated by calculating the solute and temperature distributions in the liquid and solid phases with time, when the solid-liqu
Jan 1, 1962
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Institute of Metals Division - Grain Structure and Solute Segregation in Bismuth Ingots Solidified from Undercooled MeltsBy K. G. Davis, P. Fryzuk
A study has been made of the effect of undercooling on the grain structure and solute distribution in small ingots of pure bismuth and of a 100 ppm Ag in bismuth alloy. Autoradiographic evidence shows
Jan 1, 1965
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Institute of Metals Division - Graphite-Rod Hairpin-Resistor Radiation Furnace for High TemperaturesBy W. W. Stephen, J. P. Walsted, W. J. Kroll
FOR the production of carbides, various furnace types are available, especially those using arc, resistance, and high-frequency heating. Selection of a specific means of heating depends primarily on t
Jan 1, 1951
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Institute of Metals Division - Growth Kinetics and the Mechanism of the Bainite TransformationBy S. J. Matas, R. F. Hehemann, R. H. Goodenow
The hot-stage metallographic method has been employed to determine radial growth rates of upper and lower bainite. Lower bainite appears to grow as individual plates that increase in both length and t
Jan 1, 1963
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Institute of Metals Division - Growth of Cobalt Crystals for Deformation Studies (TN)By E. Teghtsoonian, K. G. Davis
THE preparation of cobalt crystals offers problems: on cooling through 400°C a phase transformation takes place whereby the structure changes from face-centered cubic to the low temperature close-pack
Jan 1, 1962
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Institute of Metals Division - Growth of High-Purity Copper Crystals (TN)By E. M. Porbansky
DURING the investigation of the electrical transport properties of copper, it became necessary to prepare large single crystals of the highest obtainable purity. In an effort to meet these demands, si
Jan 1, 1964
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Institute of Metals Division - Growth of Large Single Crystals of High-Purity Aluminum by Strain-Annealing (TN)By J. M. Lommel
DURING an investigation into the effect of heat-treatment on the creep properties of the magnesium alloy ZW1, (1 pct Zn, 0.6 pct Zr), the previously published methods of final polishing were found to
Jan 1, 1961
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Institute of Metals Division - Growth Substructure in Rapidly Solidified Zn-2 Pct Au Alloys (TN)By F. Weinberg
WHEN impure Zn (< 99.99 pct)''Z or Zn-Cd alloys3 are progressively solidified, a cell or "corrugation" substructure4 is produced in the solid, with a high impurity or solute concentration al
Jan 1, 1963
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Institute of Metals Division - Hardenability Factors for Hypereutectoid Low-Alloy SteelsBy D. J. Carney, R. R. Burt, E. J. Whittenberger
Hardenability (multiplying) factors for carbon, mongonese, silicon, chromium, nickel, and molybdenum have been developed for hypereutectoid low-alloy steels in which bainite is the first subcritical t
Jan 1, 1957
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Institute of Metals Division - Hardenability of Titanium AlloysBy L. D. Jaffe, F. W. Cotter, E. Cordon
The hardenability of titanium-base alloys was studied by metallographic examination and hardness survey of Jominy specimens end-quenched from the B range. Analyses of the data led to the equation log
Jan 1, 1964
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Institute of Metals Division - Hardenability of Titanium Alloys Calculated from Composition: A Preliminary ExaminationBy L. D. Jaffe
From data found in the literature, a method has been derived for calculating hardenability of titanium alloys from their composition. A single graph gives the contributions of each alloying element. T
Jan 1, 1956
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Institute of Metals Division - Hardening by Internal Oxidation as a Function of Velocity of the Oxidation BoundaryBy J. L. Meijering
Oxidation hardening of cylindrical and spherical specimens first decreases with depth below the surface, but then increases again as the center is approached. This is in agreement with the view that t
Jan 1, 1961
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Institute of Metals Division - Hardness Anisotropy and Slip in WC CrystalsBy David A. Thomas, David N. French
The lrnrdness of WC crystals has been measured with the Knoop indenter at loads of 100 and 500 g on the (0001) and (1070) planes. The hardness as tneasitred on the basal plane is 2400 kg per sq mm and
Jan 1, 1965
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Institute of Metals Division - Heat Treatment, Transformation Reactions and Mechanical Properties of Some High-Strength Zirconium-Base AlloysBy P. D. Frost, H. A. Robinson, J. R. Doig, M. W. Mote
The mechanism of hardening in heat-treatable zirconium alloys was foUNd to be analogous to that for titanium alloys. Zirconium containing a relatively large addition of a ß -stabilizing element such a
Jan 1, 1960
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Institute of Metals Division - Heats of Formation of Sodium-Tin Alloys Determined With a New High Temperature CalorimeterBy L. A. Bromley, R. L. McKisson
A high temperature calorimeter designed for use up to 1500°K is described and the theory of its operation presented. This calorimeter was used to measure the heats of formation of Na-Sn alloys ranging
Jan 1, 1953
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Institute of Metals Division - High Conductivity Copper-Rich Cu-Zr AlloysBy M. J. Saarivirta
A high-purity copper-zirconium alloy system was imesti-gated. The zirconium content of the alloys studied varied from 0.003 to 0.23 pet. The solid solubility of zirconium in copper and some physical
Jan 1, 1961
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Institute of Metals Division - High Speed Germanium-Silicon N-N Alloyed HeterodiodesBy John Brownson
Ge-Si N-N heterodiodes hare been built recently which show promise as high-speed logic devices. Low-resistivity germanium is deposited on silicon substrates held at temperatures above the germanium me
Jan 1, 1965
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Institute of Metals Division - High Temperature Strength of Wrought Aluminum Powder Products (Discussion page 1334)By N. J. Grant, E. Gregory
The creep rupture properties of wrought aluminum powder products made from five grades of sintered aluminum powder were investigated at temperatures from 400° to 900°F for rupture times up to 1000 hr.
Jan 1, 1955
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Institute of Metals Division - Homogeneous Yielding of Carburized and Nitrided Single Iron CrystalsBy A. N. Holden, J. H. Hollomon
Inhomogeneous yielding during the early stages of plastic flow has been observed in many metals and has long been a subject of controversy. Low carbon steel, when strained at room temperature, exhi
Jan 1, 1950