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Iron and Steel Division - Phase Equilibria in the System FeO-Fe2O3-SiO2By A. Muan
Liquidus data are presented for mixtures in the ternary system FeO-Fe2O3-SiO2 in equilibrium with a gas phase with O2 pressures ranging from 10-10.9 to 1 atm. Data obtained are combined with previous
Jan 1, 1956
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Iron and Steel Division - Physical Conditions in the Combustion and Smelting Zones of A Blast FurnaceBy J. B. Wagstaff, R. A. Buchanan, J. F. Elliott
High speed photography through blast-furnace tuyeres showed coke particles moving rapidly. Model studies showed a raceway was formed and gave quantitative results which were correlated with actual bla
Jan 1, 1953
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Iron and Steel Division - Plastic Anisotropy of Cold Rolled-Annealed Low-Carbon Steel Related to Crystallographic OrientationBy J. A. Elias, R. H. Heyer, J. H. Smith
Plastic anisotropy determined by the ratio of width strain to thickness strain in tensile specimens of low-carbon steels is strongly related to crystallographic preferred orientation. Using(222) Pole
Jan 1, 1962
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Iron and Steel Division - Plastic Deformation Waves in AluminumBy A. W. McReynolds
One characteristic of plastic deformation which distinguishes it from elastic strain is the essential inhomo-geneity of plastic strains. Elastic strain varies continuously through a material, and aver
Jan 1, 1950
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Iron and Steel Division - Plastic Deformation Waves in Aluminum - DiscussionBy A. W. McReynolds
E. OROWAN*—I observed the phenomenon of jerky yielding many years ago with zinc25 and cadmium single crystals. A significant point was that the jerks occurred not only when the stress was raised but a
Jan 1, 1950
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Iron and Steel Division - Predicting the Solubility of Nitrogen in Molten SteelBy Frederick C. Langenberg
A method is presented for computing the solubility of nitrogen in molten alloy steels. Examples are given to illustrate the procedure, and comparisons are made between predicted and measured nitrogen
Jan 1, 1957
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Iron and Steel Division - Prediction of the Solubility of Nitrogen in Molten SteelBy Donald A. Corrigan, John Chipman
It is shown that the heat of solution of nitrogen in liquid-iron alloys is Proportional to the interaction coefficient. This proportionality forms the basis for a method of predicting nilrogen solubil
Jan 1, 1965
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Iron and Steel Division - Production of High Manganese Slags by Selective Oxidation of SpiegeleisenBy R. C. Buehl, M. B. Royer
High manganese slags of low phosphorus and iron content are produced by air oxidation of high phosphorus spiegeleisen in a basic-lined converter. Control of phosphorus and iron within specification li
Jan 1, 1953
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Iron and Steel Division - Production of Spiegeleisen from Open-Hearth Slag in an Experimental Blast FurnaceBy R. C. Buehl, M. B. Royer
A three ton per day blast furnace using blast temperatures up to 2200°F was operated to recover manganese from open-hearth slag and manganiferous iron ore. The spiegel product containing 12 to 2
Jan 1, 1953
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Iron and Steel Division - Rate and Mechanism of the Sulfur Transfer ReactionBy S. Ramachandran, N. J. Grant, T. B. King
MANY investigations of the rate of the sulfur transfer reaction between carbon-saturated iron and blast furnace type slags have been made." It is evident that the reaction is complex, the rate being a
Jan 1, 1957
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Iron and Steel Division - Rate of Dissolution of Carbon-Steel in Molten Iron-Carbon AlloysBy V. Koump, T. F. Perzak, R. G. Olsson
Jan 1, 1965
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Iron and Steel Division - Rate of FeO Reduction from a CaO-SiO2-Al2O3 Slag By Carbon-Saturated Iron (Discussion, p. 1403)By W. O. Philbrook, L. D. Kirkbride
IN the normal operation of the iron blast furnace, reduction of the iron oxides is accomplished almost entirely above the tuyeres.' Blast furnace slags usually contain less than 0.5 pct FeO, alth
Jan 1, 1957
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Iron and Steel Division - Rate of Reduction of an Oxide Sphere in a Stream of Reducing GasBy Hillary W. St. Clair
An equation is derived for the rote of reaction of a sphere of metal oxide in a restricted enclosure through which a reducing gas is flowing. The equation takes into consideration the reaction rate co
Jan 1, 1965
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Iron and Steel Division - Reaction Zones in the Iron Ore Sintering ProcessBy R. D. Burlingame, T. L. Joseph, Gust Bitsianes
DESPITE almost fifty years of commercial practice, the sintering of iron ore has received little fundamental study. Much of the theoretical work1-'has dealt with the constitution of sinter produc
Jan 1, 1957
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Iron and Steel Division - Reactions in Ferromanganese Blast Furnace Hearth RefractoriesBy Arnulf Muan, Hobart M. Kraner
Ferromanganese alloys react with aluminu-silica brick in blast furnace hearths and cause the formation of new phases with low refractoriness and consequent failure of the refractory lining. The nature
Jan 1, 1962
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Iron and Steel Division - Reducing Period in Stainless Steel MeltingBy H. P. Rassbach, E. R. Saunders
MUCH progress has been made in recent years in the theory and practice of making stainless steel. By effective utilization of oxygen for decar-burization and more suitable alloying agents, it has been
Jan 1, 1954
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Iron and Steel Division - Reduction Kinetics of Hematite and the Influence of Gaseous DiffusionBy N. A. Warner
Dense cylindrical specimens of artificial hematite were reduced in hydrogen over a range 0-f total pressures between 0.1 and 1.0 atm and temperatures between 650" and 950°C. Hydrogen reduction at a to
Jan 1, 1964
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Iron and Steel Division - Reduction Kinetics of Hematite in Hydrogen-Water Vapor-Nitrogen MixturesBy W. M. McKewan
Jan 1, 1962
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Iron and Steel Division - Reduction Kinetics of Magnetite in H2-H2O-N2 MixtureBy W. M. McKewan
Dense magnetite pellets were reduced in hydrogen-water vapor-nitrogen mixtures over a temperature range of 400° to 500° C at a pressure of 0.97 atm. The rate of reduction per unit area was found to b
Jan 1, 1962
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Iron and Steel Division - Reduction Kinetics of Magnetite in Hydrogen at High PressuresBy W. M. McKewan
Magnetite pellets were reduced in flowing hydrogen at pressures up to 40 atm over a temperature range of 350° to 500°C. The rate of weight loss of oxygen per unit area of the reaction surface was foun
Jan 1, 1962