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Institute of Metals Division - Homogenization Kinetics of a Sintered Columbium AlloyBy S. Leber, R. F. Hehemann
This investigation describes the kinetics of alloying in a (Cb-15 wt pct W. 5 wt pct Mo, 1 wt pct Zr) powder-metallurgy alloy. The degree of homogeneity obtained in hydrostatic ally pressed and vacuum
Jan 1, 1964
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Institute of Metals Division - Hot Indentation Testing of Magnesium and Other Selected MaterialsBy R. G. Wheeler, J. W. Goffard
The Larson-Miller parameter was used to correlate time, temperature, and indentation creep of magnesium, aluminum, and some of their alloys. In the temperature range 300" to 450°C, the short-time Meye
Jan 1, 1960
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Institute of Metals Division - Hydrogen Diffusion in a Beta-Titanium AlloyBy F. Paredes, W. R. Holman, R. W. Crawford
The diffusion coefficient for hydrogen in the ß titanium alloy containing 13 pct V, 11 pct CY, and 3 pct A1 was measured over the temperature range 20° to 500°C. Results fit the expression: D= 1.58
Jan 1, 1965
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Institute of Metals Division - Hydrogen Embrittlement of a Commercial Alpha-Beta Titanium AlloyBy E. J. Ripling
A NY mechanism proposed to explain hydrogen embrittlement in titanium and its alloys must, of course, be consistent with the experimental data that characterize this embrittlement. Unfortunately, howe
Jan 1, 1957
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Institute of Metals Division - Hydrogen from a Hydrocarbon Lubricant Absorbed by Ball Bearings (TN)By D. E. Swets, R. C. Frank
It is well known that hydrogen is introduced into iron or steel as a result of many chemical processes (acid pickling, electrolytic cleaning, plating, etc.). One of the reactions that has been of rece
Jan 1, 1962
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Institute of Metals Division - Hydrogen in Cold Worked Iron-Carbon Alloys and the Mechanism of Hydrogen EmbrittlementBy E. W. Johnson, M. L. Hill
Cold working of iron-carbon alloys was found to increase greatly the hydrogen solubility and to decrease the diffusivity at temperatures up to 400° C. These effects are increasing functions of both
Jan 1, 1960
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Institute of Metals Division - Hydrogen in Proton-Bombarded Beryllium: Agglomeration and DiffusionBy E. J. Rapperport, J. P. Pemsler
Proton irradiation of high-purity distilled berylliuwz was utilized to introduce various hydrogen contents from 0.00075 to 0.075 at. pct (0.83 to 83 ppm) in a band 0.004 cm wide. After irradiation, th
Jan 1, 1964
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Institute of Metals Division - Identification of Chi and Sigma Phases in Stainless Steel with the Electron Probe MicroanalyzerBy P. K. Koh, L. S. Birks, J. M. Siomkajlo
Direct identification in situ of x and a phase precipitates in stainless steel is possible with the electron probe microanalyzer. Although particles in the 1 p size range are too small to yield absolu
Jan 1, 1961
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Institute of Metals Division - Identification of the Precipitate Accompanying 885°F Embrittlement in Chromium SteelsBy E. J. Dulis, R. M. Fisher, K. G. Carroll
IT is well known that ferritic steels containing more than 15 pct Cr when subjected to temperatures in the range of 700" to 1000°F exhibit increasing hardness and decreasing ductility. The phenomenon
Jan 1, 1954
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Institute of Metals Division - Increased Rate of Formation of InSb on an Antimony Surface during Electrolytic TreatmentBy Henry Leidheiser, Melvin C. Jr. Hobson
The rate of formation of the intermetallic compound, indium antimonide, at the interface between iudium and antimony at 100°C is greatly increased when a composite electrode of indium electrode -posit
Jan 1, 1965
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Institute of Metals Division - Influence of Additives in the Production of High Coercivity Ultra-Fine Iron PowderBy E. W. Stewart, G. P. Conard, J. F. Libsch
The effects of several additives upon the reduction characteristics of hydrogen-reduced ferrous formate are described. The various additives inhibit sintering of the reduced iron particles by apparent
Jan 1, 1956
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Institute of Metals Division - Influence of Boron on the Rate of Transformation of High Purity Iron (Discussion, p. 1409)By M. E. Nicholson
The effect of boron on the austenitic transformation rate of iron is smaller than on low carbon steels. The influence of austenitizing temperature on B-Fe is the reverse of its influence on steels.
Jan 1, 1957
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Institute of Metals Division - Influence of Composition on the Stress-corrosion Cracking of Some Copper-base AlloysBy D. H. Thompson, A. W. Tracy
Season-cracking is a type of failure of brass that results from the simultaneous effect of stress and certain corrodants. The object of this paper is to present data that will aid in a more complete u
Jan 1, 1950
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Institute of Metals Division - Influence of Composition on the Stress-corrosion Cracking of Some Copper-base Alloys - DiscussionBy D. H. Thompson, A. W. Tracy
E. A. ANDERSON*—At the outset, I note that you are using a humid atmosphere containing ammonia but that you make no reference to the variable of carbon dioxide content. Edmunds in his work in this lab
Jan 1, 1950
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Institute of Metals Division - Influence of Heat Treatment on the Ductile-Brittle Transition Temperature of Semikilled Steel PlateBy R. H. Frazier, C. H. Lorig, F. W. Boulger
This investigation establishes the effect of ferrite grain size resulting from various heat treatments on the transition temperature of a semikilled steel plate. Different austenitizing temperatures a
Jan 1, 1956
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Institute of Metals Division - Influence of Processing Variables on the Properties of Nickel-Al2O3 AlloysUsing 5-p Ni powder and 0.018 ,u A1203, oxide dispersion strengthened nickel alloys were prepared by mechanical mixing of powders, followed by compaction, sintering and extrusion. Processing variables
Jan 1, 1961
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Institute of Metals Division - Influence of Small Amounts of Carbon on Recovery and Recrystallization of High-Purity IronBy F. Bonaccorso, G. Venturello, C. Antonione
A study of the effect of small amounts of interstitial impurities on recovery and re crystallization in high-purity iron (99.995 pct) has been undertaken. This paper gives results on the effect of car
Jan 1, 1963
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Institute of Metals Division - Influence of Small Amounts of Nitrogen on Recovery and Recrystallization of High-Purity IronBy G. Venturello, C. Antonione, G. Della Gatta
Results from work on the effect of inferstitials on recovery and recrystallization of' very pure iron (99.995 pet) doped with nilrogen up to 400 ppm are reported. Nitrided specimens were obtained
Jan 1, 1964
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Institute of Metals Division - Influence of Stacking-Fault Energy on High-Temperature Creep of Pure MetalsBy Craig R. Barrett, Oleg D. Sherby
The creep characteristics of four pure metals with widely Varying stacking-fault energies (silver, copper, nickel, and aluminum) were evaluated above 0.5Tm. Creep tests were performed under conditions
Jan 1, 1965
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Institute of Metals Division - Influence of the Mechanical Loading System on Low-Temperature Plastic InstabilityBy W. A. Backofen, G. Y. Chin, W. F. Hosford
The effect of machine stiffness on discontinuous flow and fracture of the 2024 aluminum alloy was studied in tension at 4.2OK. An increase of machine stiffness was found to decrease the amount of elon
Jan 1, 1964