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  • AIME
    Iron and Steel Division - Experimental Operation of a Basic-lined Surface-blown Hearth for Steel Production (Correction, p . 892) - Discussion

    By F. L. Toy, C. E. Sims

    I. A. Sirel—I would like to ask Mr. Sims what would the preferred hot metal analysis be as far as manganese and silicon are concerned if you used specially made iron for this process instead of basic

    Jan 1, 1951

  • AIME
    Iron and Steel Division - Experimental Planning for Rapid Determination of Optimum Process Conditions

    By W. A. Griffith

    Fractional replication of factorial design, a general method for planning experimentation and for analysis of data obtained, is described as applied to a flotation investigation. This method leads to

    Jan 1, 1956

  • AIME
    Iron and Steel Division - Experimental Study of Equilibria in the System FeO-Fe2O3-Cr2O3 at 1300°

    By Takashi Katsura, Avnulf Muan

    Equilibrium relations in the system FeO-Fe2O3 Cr2O3 have been determined at 1300°C at oxygen pressures ranging from that of air (0.21 atm) to 1.5 x 10-11 atm. The following oxide phases have stable eq

    Jan 1, 1964

  • AIME
    Iron and Steel Division - Factors Affecting Deformation and Rupture of Metals at Elevated Temperatures

    By F. B. Foley

    IT is with an unusual degree of personal satisfaction that I find myself in a position to pay tribute to the memory of Henry Marion Howe. One could not have spent any length of time in the presence of

    Jan 1, 1951

  • AIME
    Iron and Steel Division - Further Information on Sampling Liquid Steel for Dissolved Oxygen (TN)

    By J. M. Snook, F. C. Langenberg

    FOR a better understanding of the melting and refining processes, the oxygen content of the steel bath should be determined. The oxygen content influences many process and product variables such as th

    Jan 1, 1960

  • AIME
    Iron and Steel Division - Further Studies of the Tuyere Zone of the Blast Furnace (correction page 1018)

    By J. B. Wagstaff

    The raceway in front of the tuyere of the blast furnace has been studied quantitatively and a correlation obtained for the penetrastudiedtion of the blast. Some evidence is presented for the height an

    Jan 1, 1954

  • AIME
    Iron and Steel Division - Grain Boundary Grooving by Volume Diffusion

    By W. W. Mullins

    The development, by the mechanism of volume diffusion, of a grain boundary groove on an interface separating a solid phase and a saturated fluid phase is calculated under the following assumptions: 1)

    Jan 1, 1961

  • AIME
    Iron and Steel Division - Grain Refinement of Steel Ingots by Solidification in a Moving Electromagnetic Field (Discussion)

    By C. Richard Honeycutt, Frederick C. Langenberg, Guenter Pestel

    Otto Schaaber (Institut für Harterei-Technik, Bremen-Schönebeck, Germany)— Langenberg, Pestel, and Honeycutt gave an interesting example of the grain refining effect nonstationary magnetic fields may

    Jan 1, 1962

  • AIME
    Iron and Steel Division - Grain-Growth Restriction in Two-Phase Microstructures (TN)

    By G. I. Madden, L. H. Van Vlack

    WhEN basic refractories which contain peri-clase, MgO, are used in steel furnaces, they are altered by iron oxide to form magnesiowiistite, (Mg,Fe)O, and an iron-rich magnesioferrite, (Mg,Fe)Fe2O4. Si

    Jan 1, 1964

  • AIME
    Iron and Steel Division - Hydrogen in Steelmaking Slags

    By J. Chipman, N. J. Grant, J. H. Walsh, T. B. King

    WITH the development of adequate sampling and analysis techniques, much information has been obtained concerning the behavior of hydrogen in the steel bath during the course of steelmak-ing operations

    Jan 1, 1957

  • AIME
    Iron and Steel Division - Inclusions in Steel from Pouring Refractories

    By D. J. Carney, E. C. Rudolphy

    Large macroscopic nonmetallic inclusions were related to altered fireclay refractories by chemical and microscopic means. Pouring refractories are discussed as a source of these large inclusions. Nozz

    Jan 1, 1955

  • AIME
    Iron and Steel Division - Incomplete Mixing in the Deoxidation of Steel (TN)

    By John Chipman

    DESPITE the rapidity of chemical reactions at steelmaking temperatures, deoxidation reactions cannot be expected to reach equilibrium immediately after addition of a deoxidizing agent. A considera

    Jan 1, 1962

  • AIME
    Iron and Steel Division - Ingot Cracks in Killed, Fine-Grained C1020 Steel

    By J. A. Pusateri, M. A. Orehoski, N. R. Arant

    Plant studies on commercial-size ingots and laboratory experiments with induction furnace heats have demonstrated that the major source of ingot cracks is associated with two conditions arising during

    Jan 1, 1955

  • AIME
    Iron and Steel Division - Investigation of Bessemer Converter Smoke Control

    By A. R. Orban, R. B. Engdahl, J. D. Hummell

    The initial phase of a research program on smoke abatement from Bessemer converters is described. In work sponsored by the American Iron and Steel Institute, a 300-lb experimental Bessemer converter w

    Jan 1, 1961

  • AIME
    Iron and Steel Division - Ionic Nature of Liquid Iron-Silicate Slags

    By M. T. Simnad, G. Derge, I. George

    Measurements of current efficiency on iron-silicate slags in iron crucibles showed that conduction is about 10 pct ionic in slags with less than 10 pct silica and about 90 pct ionic in slags with more

    Jan 1, 1955

  • AIME
    Iron and Steel Division - Iron-Carbon-Sulfur System from 1149° to 1427°C

    By Keith R. Bock, Norman Parlee, Albert M. Barloga

    Coils of pure iron and iron-carbon alloy wire (0.05 to 0.80 pct C) and sufficient sulfur to saturate the solid phase were equilibrated in evacuated or argon filled tubes. After rapid cooling, and re

    Jan 1, 1962

  • AIME
    Iron and Steel Division - Kalling-Domnarfvet Process at Surahammar Works - Discussion

    By Sven Fornander

    L. F. Reinartz (Armco Steel Corp., Middletown, Ohio) —I would like to know, in the practical application of the Kalling process, what kind of a lining was used, how thick was the lining, and how much

    Jan 1, 1952

  • AIME
  • AIME
    Iron and Steel Division - Kinetic and Equilibrium Considerations for Silicon Reaction between Silicate Melts and Graphite-Saturated Iron, Part II: Reaction Kinetics of Silica Reduction

    By E. T. Turkdogan, P. Grieveson, J. F. Beisler

    Experimental results are given for the rate of reduction of silica from silicate melts by paphite-saturated iron in the presence of carbon monoxide. It is shown that, when gas bubbles are present at t

    Jan 1, 1963

  • AIME
    Iron and Steel Division - Kinetic Factors in the Reduction of Silica from Blast-Furnace Type Slags

    By J. Chipman, J. C. Fulton

    Reduction of Si from slag to carbon-saturated iron is a very slow reaction. The rate is nearly independent of stirring but is accelerated markedly by increased temperature. In a slag containing 45 pct

    Jan 1, 1960