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  • AIME
    Iron and Steel Division - Kinetics of Decarburization of Liquid Iron in an Oxidizing Atmosphere Using the Levitation Technique

    By A. E. Jenkins, L. A. Baker, N. A. Warner

    The electromagnetic levitation technique has been successfully applied to rate studies of the de-carburization of liquid Fe-C alloys from 5.5 to zero pct C at 1660°C using gas mixtures containing 1 to

    Jan 1, 1964

  • AIME
    Iron and Steel Division - Kinetics of Dissolution of Ferric Oxide

    By Kiyoshi Azuma, Hiroshi Kametani

    Dissolution of a ferric oxide in acid solution is divided into two different types In the accelerated type dissolution proceeds in three stages 1) an inittal reaction during which the dissolved a

    Jan 1, 1964

  • AIME
    Iron and Steel Division - Kinetics of Hydrogen Reduction of Magnetite

    By M. E. Wadsworth, J. R. Lewis, J. M. Quets

    Samples of snythetic magnetite were reduced in hydrogen at various partial pressures and temperatures. The reaction mas found to be surface controlled and directly proportional to hydrogen partial pr

    Jan 1, 1961

  • AIME
  • AIME
    Iron and Steel Division - Kinetics of Oxidation and Reduction of Molten Iron Oxide

    By E. T. Turkdogan, P. Grieveson

    Experimental results are given for the rate of oxidation of ferrous iron to ferric iron in pure molten iron oxide by carbon dioxide + carbon moloxide mixtures at 1550°C. It is shown that the rate-cont

    Jan 1, 1964

  • AIME
    Iron and Steel Division - Kinetics of Reaction of Gaseous Nitrogen with Iron Part I: Kinetics of Nitrogen Solution in Gamma Iron

    By E. T. Turkdogan, P. Grieveson

    Experimental results are given for the rate 0.f solution of nitrogen in y iron in the temperature range 1000° to 1200°C. It is shown that, when purified reacting gas is used, the rate-controlling pr

    Jan 1, 1964

  • AIME
    Iron and Steel Division - Kinetics of Reduction of Magnetite to Iron and Wustite in Hydrogen-Water Vapor Mixture

    By F. H. Deily, Jean M. Quets, Milton E. Wadsworth, John R. 222-000-000-012 Lewis, D. S. Rowley, R. J. Howe

    Samples of synthetic magnetite were reduced in hydrogen-water vapor atmospheres in the temperature range 450o to 900oC. The reaction was always surface controlled, indicating the final products of rea

    Jan 1, 1962

  • AIME
    Iron and Steel Division - Kinetics of Steel Dissolution in Molten Pig Iron

    By R. D. Pehlke, P. D. Goodell, R. W. Dunlap

    The rate of dissolution of steel bars in molten pig iron has been measured experimentally in the temperature range 2300° to 2650° F. The rate of solution is shown to be a .function of bath composition

    Jan 1, 1965

  • AIME
    Iron and Steel Division - Kinetics of Sulfur Reaction in Oxide Melt-Gas Systems

    By E. T. Turkdogan, M. L. Pearce

    The rates of sulfurization and desulfurization of calcium aluminate, silicate, and ferrite melts by CO + CO2 + SO2 mixtures at 1550°C are reported. It is shown that for melts 10 to 15 mm deep transpor

    Jan 1, 1963

  • AIME
    Iron and Steel Division - Kinetics of the Hydrogen Reduction of a Low-Grade Siliceous Iron Oxide Ore

    By Renato G. Bautista, Theodore D. Tiemann

    A kinetic study of the hydrogen reduction of taconite from the Wisconsin Gogebic range was made over the temperature range from 500° to 1000°C on eleven size fractions from 4 to 150 mesh. Two stages o

    Jan 1, 1962

  • AIME
    Iron and Steel Division - Kinetics of the Iron Oxide Reduction Steps (TN)

    By G. R. St. Pierre, A. J. Wilhelem

    In connection with the reduction of hematite or magnetite to metallic iron, it appeared desirable to study the rate of reduction of each oxide to the next lower oxide under conditions which excluded a

    Jan 1, 1962

  • AIME
    Iron and Steel Division - Kinetics of Vacuum Induction Refining-Theory

    By E. S. Machlin

    The kinetics of vacuum distillation, vacuum-melt surface reactions, crucible-melt surface reactions and boiling are analytically investigated. No disagreement with experiment is obtained upon applying

    Jan 1, 1961

  • AIME
    Iron and Steel Division - Liquid Miscibility Gap in Iron-Tin System (TN)

    By K. C. Mills, E. T. Turkdogan

    A number of investigators1 6 have noted the presence of a liquid miscibility gap in the Fe-Sn binary system. However, the first attempt to measure the

    Jan 1, 1964

  • AIME
    Iron and Steel Division - Liquidus Surface of the Fe-S-O System

    By Walter Crafts, D. C. Hilty

    The liquidus diagram for the iron field of the Fe-S-O system has been derived experimentally. The solubility of oxygen in molten Fe-S alloys has been measured at several temperatures and found first t

    Jan 1, 1953

  • AIME
    Iron and Steel Division - Low Manganese Steels For Nuclear Applications

    By H. F. Beeghly

    UNTIL recently the only criteria by which steels were judged were their cost and their mechanical, chemical, and physical properties. The user was concerned with such properties as corrosion resistanc

    Jan 1, 1957

  • AIME
    Iron and Steel Division - Low Sulphur Steel from High Sulphur Raw Materials and Fuel (With Discussion)

    By F. L. Robertson, C. H. Bacon, J. W. Till

    A description is given of the development of a process for making low sulphur steel on furnaces fired with 2 1/2 pet sulphur oil. Slag and metal are analyzed at melt. Slag weight is estimated. A sim

    Jan 1, 1952

  • AIME
    Iron and Steel Division - Manganese as an Indicator of Blast Furnace Slag Oxidation and Desulphurizing Power

    By R. J. Murphy, N. J. Grant, J. W. Dowding

    A large number of blast furnace slag-metal tests were examined to determine if the manganese reduction could be used as a primary indicator of the degree of oxidation or reduction of the slag and of i

    Jan 1, 1954

  • AIME
    Iron and Steel Division - Manganese Modification of the Fe-S-O System

    By D. C. Hilty, W. Crafts

    A qualitative pseudoternary solidification diagram for the Fe-S-O system modified by manganese is proposed and supported by experimental derivation of an isothermal section at 1475°C and substantially

    Jan 1, 1955

  • AIME
    Iron and Steel Division - Metallic Oxidation in Chromium Steel Melting

    By G. W. Healy, W. Craft, D. C. Hilty

    By means of a theoretical extension of the Cr-C temperature relation in molten chromium steels to low chromium contents and by a correlation of the ratios of chromium to iron in the slag and metal, a

    Jan 1, 1954

  • AIME
    Iron and Steel Division - Method for Spectrochemical Determination Of Aluminum in Fe-Al Alloys

    By Ford R. Bryan, Edward F. Runge

    BECAUSE of the need for ductile heat resistant alloys of non-strategic composition, there has been metallurgical development of Fe-A1 alloys possessing improved ductility and hot strength, together wi

    Jan 1, 1957