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Institute of Metals Division - Lead-Uranium SystemBy R. J. Teitel
The Pb-U system has been investigated by X-ray, thermal, and microscopic analyses. Two pyrophoric intermetallic compounds were found; UPb3 and UPb. The crystallographic structure of UPb3 is reported.
Jan 1, 1953
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Institute of Metals Division - Light Emission from GaAsxP1-x DiodesBy M. H. Pilkuhn, H. Rupprecht
The junction luminescence of GaAsxP1-x diodes containing up to 47 pct Gap was studied. Diodes were prepared by diffusing zinc into n-type material which was eithw boat- or vapor-gvown. Observations co
Jan 1, 1964
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Institute of Metals Division - Liquid Solubility of Manganese in a Magnesium-aluminum-tin AlloyBy G. F. Sager, B. J. Nelson
Magnesium alloy forgings offer higher and more uniform mechanical properties than heat treated magnesium alloy castings and are used principally for light weight parts that may be stressed in fatigue
Jan 1, 1950
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Institute of Metals Division - Lithium Alloying and Dislocation Mechanisms for Prismatic Slip in MagnesiumBy A. Ahmadieh, J. E. Dorn, Jack Mitchell
A detailed investigation of the disloccrtion mechanisms controlling prismatic, slip in a solid solutions of magnesium containing up to 15.9 at. pel Li revealed that low-temperature prismatic slip is c
Jan 1, 1965
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Institute of Metals Division - Low-Temperature Lattice Parameters of Thorium-Cerium AlloysBy G. V. Raymor, James T. Waber, I. Rex Harris
The lattice parameters of a series of fcc alloys of cerium and thorium were measured at 93 " and 298OK. Lattice parameters were also estimated for 171OK. Substantial deviations, y, from Vegard's
Jan 1, 1964
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Institute of Metals Division - Low-Temperature Mechanical Properties of a Solution-Hardened Niobium (Columbium) AlloyBy D. E. Peacock, B. Harris
The mechanical behavior of a niobium (columbium)TUNG alloy containing 20 wt pet Ta. 15 wt pet W, and 5 wt pct Mo has been studied in the temperature range 77° to 423°K. All specitrzens tested, apart f
Jan 1, 1965
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Institute of Metals Division - Low-Temperature Wire Texture of Aluminum (TN)By Robert L. Fleischer
A well known but unexplained experimental fact is the observation1 that aluminum shows a pure <111> wire texture, in contrast with other fcc metals, which have a mixed <100> <111> texture at moderate
Jan 1, 1962
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Institute of Metals Division - Low-Temperature Yielding and Fracture in Fe-Co and Fe-V AlloysBy N. S. Stoloff, R. C. Ku, R. G. Davies
The stress-strain behavior of Fe-Co and Fe- V alloys containing up to 25 pct solute have been studied in the temperature range 25° to - 196°C. The microyield stress is independent of temperature for a
Jan 1, 1965
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Institute of Metals Division - Magnesium-Lead Phase Diagram and the Activity of Magnesium of Liquid Magnesium-Lead AlloysBy E. Miller, J. M. Eldridge, K. L. Komarek
The liquidus curve of the Mg-Pb system was accurately redetermined. The compound Mg2Pb decomposes peritectically at 538.2° ± 0.3°C to liquid and to a compound p' which melts congruently at 35.0 a
Jan 1, 1965
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Institute of Metals Division - Magnesium-lithium Base Alloys-Preparation, Fabrication, and General CharacteristicsBy J. H. Jackson, P. D. Frost, C. H. Lorig, L. W. Eastwood, A. C. Loonam
It is well known that for equal weights of material, thin sections of the lighter structural alloys are more resistant to buckling under a compressive stress than thin sections of more dense material.
Jan 1, 1950
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Institute of Metals Division - Magnesium-Rich Corner of the Magnesium-Lithium-Aluminum System (Discussion, p. 1267a)By C. E. Armantrout, J. A. Rowland, D. F. Walsh
THE close-packed-hexagonal structure of mag-J- nesium is converted to a ductile and malleable body-centered-cubic lattice by the addition of lithium in excess of 10 pct. Further, the density of magnes
Jan 1, 1956
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Institute of Metals Division - Magnesium-Uranium SystemBy H. A. Wilhelm, P. Chiotti, G. A. Tracy
A summary of analytical, X-ray, thermal, and metallographic data obtained in the study of the Mg-U system is presented. No intermetallic compounds are formed by these two elements, and their mutual so
Jan 1, 1957
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Institute of Metals Division - Magnetic Anisotropy and Magnetostriction of Ordered and Disordered Cobalt-Iron AlloysBy R. C. Hall
The magnetic anisotropy and magnetostriction of single crystals of alloys between 25 and 59 wt pct Co in Fe have been determined in the disordered and ordered states. The magrzetostriction is large an
Jan 1, 1961
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Institute of Metals Division - Magnetic Method for the Measurement of Preci~itate Particle Sizes in a Cu-Co Alloy (Discussion p. 1309)By J. J. Becker
BEAN1 has discussed the magnetic behavior of mixtures of small ferromagnetic particles on the order of 20 to l000A in diam. As he points out, there are three size categories with characteris
Jan 1, 1958
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Institute of Metals Division - Magnetic Susceptibilities of Titanium-Rich Titanium-Oxygen AlloysBy Y. L. Yao
The solubility limit of oxygeu in a titanionn at 850°C has been determined by magnetic measurements as 12.5 + 0.5 pct (29.0—30,9 at. pct). Also in the susceptibility-co~centmtion curve, there is n d
Jan 1, 1960
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Institute of Metals Division - Magnetism in a High-Carbon Stainless SteelBy S. M. Purdy
Under certain conditions of hot rolling and air cooling from the hot-rolling temperature, bars of a high carbon (0.40 pct C) chrome-nickel austen-itic alloy were found to show magnetism even though no
Jan 1, 1962
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Institute of Metals Division - Magnetostriction and Residual Stress in Nickel after Plastic ElongationBy B. D. Cullity, O. P. Puri
The magnetostrictia of nickel after increasing amounts of plastic elongation was measured at field strengths up to 1500 oe. In addition, the residual stress was measured by means of X-ray line shifts.
Jan 1, 1963
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Institute of Metals Division - Martensite Nucleation in Substitutional Iron AlloysBy J. C. Fisher
Nucleation theory is applied to martensite nucleation in substitutional iron alloys. Composition fluctuations are neglected, and a steady rate of nucleation is predicted for any composition and temper
Jan 1, 1954
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Institute of Metals Division - Martensite Transformations in Zirconium, Titanium, and Titanium-Copper Alloys (TN)By J. Gordon Parr, L. P. Srivastava
DUWEZ1 has shown that pure titanium and pure zirconium transform martensitically during rapid cooling at temperatures about 30° and 15°C re spectively below their To temperatures. Holden et al.2 de
Jan 1, 1962
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Institute of Metals Division - Martensitic Transformation in Binary Titanium AlloysBy Y. C. Liu
Both the habit plane of martensite and the orientation relationship between the matrix and martensite platelets of different habit planes have been investigated in binary titanium alloys with molybden
Jan 1, 1957