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Institute of Metals Division - Tungsten-Semiconductor Schottky-Barrier DiodesBy J. C. Sarace, S. M. Sze, C. R. Crowell
Thin films of tungsten 077 n-type germanium, silicon, and gallium arsenide were obtained by reacting tungsten hexafluoride with the semiconductor surface in an argom atmosplrere at temperatures betwee
Jan 1, 1965
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Institute of Metals Division - Tunneling Through Gaseous Oxidized Films of A1203By C. E. Morris, S. R. Pollack
Current -vo1tage -temperature characteristics were studied for Al-A12O3-Al, Au structures. The oxide film was grown by gaseous oxidation in an 0, glow discharge. The electron-transfer mechanism was id
Jan 1, 1965
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Institute of Metals Division - Twin Accommodation in Au- Cd B' Alloys (TN)By H. K. Birnbaum
The termination of a twin lamella in the interior of a crystal requires accommodation of the strains at the tip of the twin which result from coherency of the twin and matrix. In zinc and magnesium cr
Jan 1, 1960
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Institute of Metals Division - Twin Intersections and Cahn's Continuity ConditionsBy R. E. Reed-Hill
The shear continuity conditions under which one mechanical twin may cross another are considered. Twin intersections usually involve various types of slip deformation in addition to twinning. Because
Jan 1, 1964
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Institute of Metals Division - Twinning and Fracture in Tungsten Single Crystals at Room TemperatureBy Ursula E. Wolff
Il.lechanica1 twins have been observed in brigsten single crystals of a variety of axial orientations defornzed at room temperature in tension or bending. The twins formed near the final fracture and
Jan 1, 1962
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Institute of Metals Division - Twinning Copper in Compression by Double Shock (TN)By J. W. Taylor, E. G. Zukas
THE results of shock-loading studies on copper were reported several years ago by smith. In his experiments, Smith found that there was a correlation between the shock direction and the orientation of
Jan 1, 1965
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Institute of Metals Division - Twinning in ColumbiumBy Carl J. McHargue
Mechanical twins were produced in electron-beam melted columbium by high-speed impact at room temperature and by slow or fast compression at -196°C. The composition plane of the twins was { 112} and t
Jan 1, 1962
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Institute of Metals Division - Twinning in Columbium -Vanadium AlloysBy D. O. Hobson, J. O. Stiegler, C. J. McHargue
The effects of alloy composition, deformation temperature, heal treatment, ad inlerstilial contamination on the occurrence of deformation twins were studied. The twinning transition temperature varied
Jan 1, 1965
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Institute of Metals Division - Two Types of Discontinuous Precipitation in Alpha Iron Solid SolutionsBy E. Hornbogen
Discontinuous precipitation in a iron can occur by at least two different mechanisms. These mechanisms are compared, using observations made on an Fe-22 at. pct Zn alloy and an Fe-19.5 at. pct Mo all
Jan 1, 1963
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Institute of Metals Division - Ultrasonic Attenuation Study of Dislocation Motion Part I. TheoreticalBy Robert E. Green
Formulae are given for calculating the modes of wave propagation in a single-crystdl specimen possessing a given crystallographic orientation. Such calculations lead to determination of the orientatio
Jan 1, 1964
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Institute of Metals Division - Ultrasonic Attenuation Study of Dislocation Motion Part II. ExperimentalBy Robert E. Green, Robert A. Swanson
Ultrasonic attenuation and stress were measured simultaneously as a function of strain for aluminum single crystals tested in compression. The propagation mode and polarization of the ultrasonic waves
Jan 1, 1964
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Institute of Metals Division - Undercooling of Minor Liquid Phases in Binary AlloysBy C. S. Smith, Chih-Chung Wang
TURNBULL and his collaborators1,2 have developed the theory of homogeneous nucleation as applied, inter alia, to solidification of liquid metals. Vonnegut³ and Turnbull4 have shown that if a liquid me
Jan 1, 1951
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Institute of Metals Division - Undercooling of Minor Liquid Phases in Binary Alloys - DiscussionBy C. S. Smith, Chih-Chung Wang
D. Turnbull—In the opinion of the writer the most interesting result described in this paper is that the distribution of tin with respect to solidification temperature has several fairly well-defined
Jan 1, 1951
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Institute of Metals Division - Upper Nose Temper Embrittlement of a Ni-Cr Steel (Discussion 1316)By L. D. Jaffe, D. C. Buffum
EARLIER the authors and coworkers had pre sented data on isothermal temper embrittlement of an SAE 3140 steel?' In that work, however, attention was concentrated on embrittlement at 575°C and bel
Jan 1, 1958
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Institute of Metals Division - Uranium Diffusivity in Liquid CadmiumBy Leslie Burris, J. C. Hesson
The diffusivity of uranium in liquid cadmium has been measured as a function of temperature by the capillary -bath technique. The diffusivity measurements were made at 4509 500°, 575º, and 650°C, over
Jan 1, 1963
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Institute of Metals Division - Uranium-Bismuth SystemBy R. J. Teitel
FOUR or five years ago an investigation was initiated to study and develop basic information on llquid metal fuels for future power nuclear reactors. The objective was to find fluid forms of uranium (
Jan 1, 1958
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Institute of Metals Division - Uranium-Chromium SystemBy A. H. Daane, A. S. Wilson
The U-Cr system is of the simple eutectic type with some solid solubility of chromium in r and ß uranium. The eutectic occurs at 20 atomic pet Cr and melts at 859°C. The maximum solubility of chromium
Jan 1, 1956
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Institute of Metals Division - Uranium-Silicon AlloysBy A. Kaufmann, B. Cullity, G. Bitsianes
T0 determine the bulk of the phase diagram, techniques for melting, thermal analysis, heat treatment, metallography, and X-ray diffraction that have already been described were used.' It proved d
Jan 1, 1958
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Institute of Metals Division - Uranium-Titanium Alloy System (Discussion page 1317)By M. C. Udy, F. W. Boulger
AN incomplete phase diagram for the U-Ti systern was determined earlier 1 and more recently, a tentative diagram was presented for the uranium-rich end of the system.' In the present re-examinati
Jan 1, 1955
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Institute of Metals Division - Uranium-Zinc SystemBy H. H. Klepfer, K. J. Gill, P. Chiotti
SOME observations relative to the U-Zn system have been made by other investigators. Chipman1 and Carter2 have reported the preparation of several U-Zn alloys and point out that these alloys are gener
Jan 1, 1958