Search Documents

Sort by

  • AIME
    Technical Papers and Discussions - Stainless Steel and Iron-silicon Alloys - Constitution of Commercial Low-carbon Iron-silicon Alloys (Metals Tech., Feb. 1946, T. P. 1966, with discussion)

    By N. C. Fick, R. L. Rickett

    Despite the large volume of literature on alloys of iron and silicon,' there is little published information dealing specifically with the constitution, at various temperatures, of the alloys con

    Jan 1, 1947

  • AIME
    Technical Papers and Discussions - Stainless Steel and Iron-silicon Alloys - Some Aspects of Crystal Recovery in Silicon Ferrite Following Plastic Strains (Metals Tech., Aug. 1946, T. P. 1991)

    By C. G. Dunn

    It is well known that plastic deformation alters many of the properties of a metal and subsequent heat-treatment partially or completely restores these properties.l In the deformed or strained state,

    Jan 1, 1947

  • AIME
    Technical Papers and Discussions - Stainless Steel and Iron-silicon Alloys - Some Aspects of Crystal Recovery in Silicon Ferrite Following Plastic Strains (Metals Tech., Aug. 1946, T. P. 1991)

    By C. G. Dunn

    It is well known that plastic deformation alters many of the properties of a metal and subsequent heat-treatment partially or completely restores these properties.l In the deformed or strained state,

    Jan 1, 1947

  • AIME
    Technical Papers and Discussions - Steelmaking - A Method for Determining the Origin of Surface Defects in Rolled Steel Products (Metals Tech., June 1948, T.P. 2368)

    By V. L. Elliott, C. L. Meyette

    The conditioning of semifinished steel products such as billets, blooms, and slabs to remove surface defects before further processing to finished products is a necessary accompaniment to steel mill r

    Jan 1, 1949

  • AIME
    Technical Papers and Discussions - Steelmaking - A Method for Determining the Origin of Surface Defects in Rolled Steel Products (Metals Tech., June 1948, T.P. 2368)

    By V. L. Elliott, C. L. Meyette

    The conditioning of semifinished steel products such as billets, blooms, and slabs to remove surface defects before further processing to finished products is a necessary accompaniment to steel mill r

    Jan 1, 1949

  • AIME
    Technical Papers and Discussions - Steelmaking - A Radiation Pyrometer for Open-hearth Bath Measurements (Metals Tech., June 1946, T. P. 2031)

    By H. T. Clark, S. Feigenbaum

    The importance of measuring the temperature of molten steel in the open-hearth furnace has been recognized for many years. Poor temperature control may be costly to steelmaking operations and lead to

    Jan 1, 1947

  • AIME
    Technical Papers and Discussions - Steelmaking - A Radiation Pyrometer for Open-hearth Bath Measurements (Metals Tech., June 1946, T. P. 2031)

    By H. T. Clark, S. Feigenbaum

    The importance of measuring the temperature of molten steel in the open-hearth furnace has been recognized for many years. Poor temperature control may be costly to steelmaking operations and lead to

    Jan 1, 1947

  • AIME
    Technical Papers and Discussions - Steelmaking - An Equilibrium Study of the Distribution of Phosphorus between Liquid Iron and Basic Slags (Metals Tech., April 1946, T. P. 1987)

    By John Chipman, Theodore B. Winkler

    In order to understand more fully the complexities of the reactions occurring between the liquid steel and the slag in the basic open-hearth steelmaking furnace, investigations in this country and. ab

    Jan 1, 1947

  • AIME
    Technical Papers and Discussions - Steelmaking - An Equilibrium Study of the Distribution of Phosphorus between Liquid Iron and Basic Slags (Metals Tech., April 1946, T. P. 1987)

    By Theodore B. Winkler, John Chipman

    In order to understand more fully the complexities of the reactions occurring between the liquid steel and the slag in the basic open-hearth steelmaking furnace, investigations in this country and. ab

    Jan 1, 1947

  • AIME
    Technical Papers and Discussions - Steelmaking - Direct Oxidation in the Basic Open Hearth Process (Metals Tech., June 1948, T.P. 2380) (with discussion)

    By E. B. Hughes, F. G. Norris

    Oxidation is characteristic of all processes for making steel from pig iron. This thought has been aptly expressed by H. W. Graham13 in the recent Howe Memorial Lecture, "The process of steel-making c

    Jan 1, 1949

  • AIME
    Technical Papers and Discussions - Steelmaking - Direct Oxidation in the Basic Open Hearth Process (Metals Tech., June 1948, T.P. 2380) (with discussion)

    By E. B. Hughes, F. G. Norris

    Oxidation is characteristic of all processes for making steel from pig iron. This thought has been aptly expressed by H. W. Graham13 in the recent Howe Memorial Lecture, "The process of steel-making c

    Jan 1, 1949

  • AIME
    Technical Papers and Discussions - Steelmaking - Operation of Oxygen-enriched Open-hearth Furnaces (Metal Tech., August 1948, T.P. 2416) (with discussion)

    By J. S. Marsh

    Joseph Priestley prepared oxygen on Aug. I, 1774, and noted with great surprise "that a candle burned in this air with a remarkable brilliant flame." On Aug. 2, 1774, some ironmaker possibly began to

    Jan 1, 1949

  • AIME
    Technical Papers and Discussions - Steelmaking - Operation of Oxygen-enriched Open-hearth Furnaces (Metal Tech., August 1948, T.P. 2416) (with discussion)

    By J. S. Marsh

    Joseph Priestley prepared oxygen on Aug. I, 1774, and noted with great surprise "that a candle burned in this air with a remarkable brilliant flame." On Aug. 2, 1774, some ironmaker possibly began to

    Jan 1, 1949

  • AIME
    Technical Papers and Discussions - Steelmaking - Oxygen in Basic Electric-furnace Baths (Metals Tech., June 1947, T. P. 2185, with discussion)

    By S. F. Urban, G. Derge

    At the time this investigation was initiated variations were observed in the quality of different heats of basic electric-furnace steels, although they had been made under purportedly similar conditio

    Jan 1, 1948

  • AIME
    Technical Papers and Discussions - Steelmaking - Oxygen in Basic Electric-furnace Baths (Metals Tech., June 1947, T. P. 2185, with discussion)

    By S. F. Urban, G. Derge

    At the time this investigation was initiated variations were observed in the quality of different heats of basic electric-furnace steels, although they had been made under purportedly similar conditio

    Jan 1, 1948

  • AIME
    Technical Papers and Discussions - Steelmaking - Oxygen in Liquid Open-hearth Steel-Effect of Special Additions, Stirring Methods and Tapping (Metals Tech., Oct. 1946, T. P. 2076, with discussion)

    By B. M. Larsen, T. E. Brower

    In two previous paperslJ dealing with the carbon-oxygcn reaction, and the simultaneous content of each, in liquid steel in the furnace, we have made use of the quantity A[O], defined as the excess oxy

    Jan 1, 1948

  • AIME
    Technical Papers and Discussions - Steelmaking - Oxygen in Liquid Open-hearth Steel-Effect of Special Additions, Stirring Methods and Tapping (Metals Tech., Oct. 1946, T. P. 2076, with discussion)

    By B. M. Larsen, T. E. Brower

    In two previous paperslJ dealing with the carbon-oxygcn reaction, and the simultaneous content of each, in liquid steel in the furnace, we have made use of the quantity A[O], defined as the excess oxy

    Jan 1, 1948

  • AIME
    Technical Papers and Discussions - Steelmaking - Oxygen in Liquid Open-hearth Steel-Oxygen Content during the Refining Period (Metals Tech., Sept. 1946, T. P. 2035, with discussion)

    By B. M. Larsen, T. E. Brower

    In an earlier paper1 we discussed a simple, rapid method of taking samples of liquid steel and analyzing them for oxygen, which, though possibly not absolutely accurate (as is likewise true of all oth

    Jan 1, 1948

  • AIME
    Technical Papers and Discussions - Steelmaking - Oxygen in Liquid Open-hearth Steel-Oxygen Content during the Refining Period (Metals Tech., Sept. 1946, T. P. 2035, with discussion)

    By B. M. Larsen, T. E. Brower

    In an earlier paper1 we discussed a simple, rapid method of taking samples of liquid steel and analyzing them for oxygen, which, though possibly not absolutely accurate (as is likewise true of all oth

    Jan 1, 1948

  • AIME
    Technical Papers and Discussions - Steelmaking - Role of Thermochemical Factors in Basic Open Hearth Production Rate (Metals Tech., October 1948 T.P. 2451)

    By B. M. Larsen, T. E. Brower

    Introduction and Summary By "thermochemical factors" we refer to those variables which affect the net heat which must be put into the bath in order to make a heat of steel from any given set of charge

    Jan 1, 1949