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Institute of Metals Division - Mechanism of Electrical Conduction in Molten Cu S-Cu Cl and MattesBy G. Derge, Ling Yang, G. M. Pound
The specific conductance and its temperature dependence were measured over the entire composition range of the molten Cu2S-CuCI system. At a typical temperature of 1200°C, 10 rnol pet of the ionically
Jan 1, 1957
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Institute of Metals Division - Mechanism of Fatigue Deformation at Elevated TemperaturesBy W. A. Wood, W. H. Reimann, Maria Ronay
The basic mechanism of fatigue is studied in annealed a brass subjectecl to alternating torsion at room temperature, 100°, 200°, 300°, and 400°C, and in air. It is shown that the slip-zone micro-crack
Jan 1, 1965
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Institute of Metals Division - Mechanism of IntercrystallineFracture (Discussion, p. 1416)By Nicholas J. Grant, H. C. Chang
Microscopic observations during creep tests were made on AI-20 pet Zn, 80 pet Ni-20 pet Cr, and 25 and 3S aluminum specimens. All these materials failed in an inter-crystalline manner under certain st
Jan 1, 1957
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Institute of Metals Division - Mechanism of Plastic Flow in Titanium: Manifestations and Dynamics of Glide (Discussion page 1316)By F. D. Rosi
The slip and twinning behavior in extended titanium crystals were studied in some detail. The formation and appearance of coarse kink bands are discussed. Their crystallographic geometry was determine
Jan 1, 1955
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Institute of Metals Division - Melting and Freezing (Institute of Metals Lecture, 1954)By B. Chalmers
THE practical importance of the phenomena of melting and freezing must have been recognized for a very long time. The difference between ice and water, for example, has had a profound influence on the
Jan 1, 1955
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Institute of Metals Division - Melting of High Purity UraniumBy Bernhard Blumenthal
A melting process was developed by which high purity electrolytic uranium crystals can be converted into sound ingots without serious contamination. Careful preparation of the crystals, melting in a h
Jan 1, 1956
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Institute of Metals Division - Melting Point Determination Of Hafnium, Zirconium, and TitaniumBy D. K. Deardorff, Earl T. Hayes
An improved technique is described for the accurate determination of melting points of metals in the temperature range 1500' to 2500°C. The improvements consist of gradient heating and refinement
Jan 1, 1957
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Institute of Metals Division - Mercury Embrittlement of an Al-4 ½ Pct Mg Alloy (TN)By W. Rostoker, H. Nichols
It has been demonstrated in previous work1'2 that wetting of aluminum alloys by liquid mercury can cause fracture to occur with substantial suppression of prior plastic flow. This has been interp
Jan 1, 1964
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Institute of Metals Division - Mercury Embrittlement of Titanium Alloy RC-130-ABy H. P. Leighly
WORNER1 briefly studied the embrittlement of titanium by mercury. He found that mercury will wet the titanium surface at 400°C in vacuo, if the specimen had been heated previously to 700°C to dissol
Jan 1, 1962
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Institute of Metals Division - Mercury-Induced Crack Formation and Propagation in Cu-4 Pct Ag AlloyBy Irving B. Cadoff, Ernest Levine
The crack formation and propagation in the single -phase Cu-4 pct Ag alloys were studied. The alloys were loaded in mercury to various stress levels, the mercury was removed, and the specimen examined
Jan 1, 1964
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Institute of Metals Division - Metal Crystal Orientation Using the Polarizing Microscope (TN)By H. D. Mellom
The direction of the optic or "C" axis of a uniaxial metal crystal can be found with the metallurgical polarizing microscope by examining two planes of section on the crystal. Complete orientation of
Jan 1, 1962
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Institute of Metals Division - Metal Deposition Coefficients in Filament BundlesBy G. H. Kesler, J. E. Oberele, C. E. Dryden, J. H. Oxley
Heat-transfer rates were measured in a model of a multifilament vapor-deposition bulb fo the preparation of high-purzty metals. Local transfer coefficients for heat transfer frow the filaments to the
Jan 1, 1962
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Institute of Metals Division - Metallographic and Differential Thermal Analyses of the Purity of Cerium (TN)By D. E. Etter, J. E. Selle
HIGH-PURITY cerium metals, supplied as 99.9 pct pure, by various suppliers, vary widely in melting points and in the shapes of the differential thermal-analysis curves obtained as the samples are heat
Jan 1, 1964
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Institute of Metals Division - Metallographic Sample Preparation of Pb-Bi Alloys (TN)By R. A. Spurling, C. G. Rhodes
SATISFACTORY metallographic sample preparation of very soft metals, such as lead and its alloys is generally difficult. The prime requisite of any technique must be that the result gives an undis-tort
Jan 1, 1965
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Institute of Metals Division - Metallographic Study of the Martensite Transformation in LithiumBy J. S. Bowles
THE martensite transformation in lithium, dis- covered by Barrett,' has been studied extensively by X-ray techniques by Barrett and Trautz,² and Barrett and Clifton.V he present paper reports the
Jan 1, 1952
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Institute of Metals Division - Metallurgical Aspects of Interface-Alloyed GaAs-Ge HeterojunctionsBy M. C. Lavine, H. C. Gatos, R. S. Mroczkowski
The structure of GaAs-Ge heterojunctions prepared by a back-melting process was studied by X-rav diffraction, melallographic, and electron-micro-analyzer techniques. The boundary region between the Ga
Jan 1, 1965
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Institute of Metals Division - Metastable Close-Packed Structures in Silver-Rich Binary Alloys with Tin, Antimony and Silicon (TN)By William Klement
THIS note reports the results of some attempts to metastably extend the primary solid solubilities of tin, antimony, and silicon in silver by rapidly quenching these binary alloys from the melt. The p
Jan 1, 1965
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Institute of Metals Division - Metastable Solid Solutions in Silver-Platinum Alloys (TN)By H. L. Luo, W. Klement
By rapidly quenching Ag-Pt alloys from the melt, a continuous series of solid solutions has been obtained. At equilibrium''2 these fcc elements form a peritectic system, Fig. 1. Weighed a
Jan 1, 1963
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Institute of Metals Division - Microbeam Analysis of Widmanstätten Structure in Meteoritic IronBy N. A. Richard, A. E. Austin, R. E. Maringer
AS part of a detailed study of the structure of metallic meteorites, the concentration and distribution of iron and nickel in the various phases of meteor -itic iron have been measured using an electr
Jan 1, 1960
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Institute of Metals Division - Microcalorimetric Investigation of Recrystallization of CopperBy P. Gordon
An isothermal jacket microcalorimeter, supplemented by metallographic, microhardness, and X-ray measurements has been used to study the isothermal annealing of high purity copper after room temperatur
Jan 1, 1956