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  • AIME
    Preparation of Industrial Minerals - Magnesium from Olivine (Metals Tech., April 1945, T.P. 1828)

    By E. C. Houston

    The presence in the Tennessee Valley of extensive deposits of olivine, a silicate of magnesium and iron that contains approximatcly 28 per cent magnesium, has been recognized since 1896 when Lewis8 pu

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - Potassium Carbonate from Wyomingite (Mining Tech., July 1944, T.P. 1738)

    By C. E. McCarthy, A. George Stern, Stanley J. Green

    The national interest prompts consideration of any new source of mineral wealth even though the immediate need may be of minor importance. A critical shortage of potash in the United States during the

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - Potassium Carbonate from Wyomingite (Mining Tech., July 1944, T.P. 1738)

    By A. George Stern, Stanley J. Green, C. E. McCarthy

    The national interest prompts consideration of any new source of mineral wealth even though the immediate need may be of minor importance. A critical shortage of potash in the United States during the

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - Process for Manufacture of Dead-burned Magnesite and Precipitated Calcium Carbonate from Dolomite (Mining Tech., Mar. 1947, T.P. 2155, with discussion)

    By Robert D. Pike

    In November 1939, on behalf of the Harbison-Walker Refractories Co., the author undertook the study of the problem of utilizing the dolomite of northwestern Ohio for the manufacture of calcined magnes

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - Process for Manufacture of Dead-burned Magnesite and Precipitated Calcium Carbonate from Dolomite (Mining Tech., Mar. 1947, T.P. 2155, with discussion)

    By Robert D. Pike

    In November 1939, on behalf of the Harbison-Walker Refractories Co., the author undertook the study of the problem of utilizing the dolomite of northwestern Ohio for the manufacture of calcined magnes

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - Recovery of Resin from Utah Coal (Mining Tech., May 1947; Coal Tech., May 1947, T.P. 2166)

    By Ernest Klepetko

    A notable amount of fossil resin exists in many of the bituminous coal beds of Utah. The upper part of these show a marked concentration of resin, which occurs primarily in the fracture seams. In gene

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - Recovery of Resin from Utah Coal (Mining Tech., May 1947; Coal Tech., May 1947, T.P. 2166)

    By Ernest Klepetko

    A notable amount of fossil resin exists in many of the bituminous coal beds of Utah. The upper part of these show a marked concentration of resin, which occurs primarily in the fracture seams. In gene

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - Retreatment of Corundum Tailings at Craigmont, Ontario (Mining Tech., Nov. 1946, T.P. 2119)

    By A. G. Roach

    This paper deals with a plant built under joint agreement between the Canadian and United States Governments to supply the strategic mineral, corundum, at a time when African production was dwindling

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - Retreatment of Corundum Tailings at Craigmont, Ontario (Mining Tech., Nov. 1946, T.P. 2119)

    By A. G. Roach

    This paper deals with a plant built under joint agreement between the Canadian and United States Governments to supply the strategic mineral, corundum, at a time when African production was dwindling

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - The Firing of Rotary Kilns with Powdered Coal (Mining Tech., Sept., 1946, T.P. 2042)

    By W. C. Knoblaugh

    Rotary kilns are adaptable to many fuels, but this paper deals principally with the use of powdered coal. The observations and conclusions presented are based on rotary kilns used in the manufacture o

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - The Firing of Rotary Kilns with Powdered Coal (Mining Tech., Sept., 1946, T.P. 2042)

    By W. C. Knoblaugh

    Rotary kilns are adaptable to many fuels, but this paper deals principally with the use of powdered coal. The observations and conclusions presented are based on rotary kilns used in the manufacture o

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - The Recovery of Pyrite from Coal Mine Refuse (Abstract) (Mining Tech., July 1944, T.P. 1744; TRANS AIME (1944) 157, 141

    By David K. Mitchell

    The mineral pyrite (or marcasite) occurs in coal beds as balls, lenses, veinlets and bands. Several million tons are w-asted annually on the refuse dumps from coal mining and coal-preparation activiti

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - The Recovery of Pyrite from Coal Mine Refuse (Abstract) (Mining Tech., July 1944, T.P. 1744; TRANS AIME (1944) 157, 141

    By David K. Mitchell

    The mineral pyrite (or marcasite) occurs in coal beds as balls, lenses, veinlets and bands. Several million tons are w-asted annually on the refuse dumps from coal mining and coal-preparation activiti

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - Treatment and Concentration of the Graphite Ores of São Fidelis, Brazil (Mining Tech., Sept. 1946, T.P. 2012)

    By F. C. von der Weid

    The mining district of Sao Fidelis, in the northern part of the State of Rio de Janeiro, is situated on the Paraiba River, where it crosses the Serra do Mar (Mountain of the Sea), in the center of a m

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - Treatment and Concentration of the Graphite Ores of São Fidelis, Brazil (Mining Tech., Sept. 1946, T.P. 2012)

    By F. C. von der Weid

    The mining district of Sao Fidelis, in the northern part of the State of Rio de Janeiro, is situated on the Paraiba River, where it crosses the Serra do Mar (Mountain of the Sea), in the center of a m

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - Wear-resistance Tests on Domestic Materials for Pebble-mill Linings (Mining Tech., Mar. 1946, T.P. 1948)

    By C. E. Berry

    Natural stone or manufactured porcelain pebbles are used as the grinding elements in pebble mills and the mills are lined with stone or porcelain blocks. Steel balls usually form the grinding medium i

    Jan 1, 1948

  • AIME
    Preparation of Industrial Minerals - Wear-resistance Tests on Domestic Materials for Pebble-mill Linings (Mining Tech., Mar. 1946, T.P. 1948)

    By C. E. Berry

    Natural stone or manufactured porcelain pebbles are used as the grinding elements in pebble mills and the mills are lined with stone or porcelain blocks. Steel balls usually form the grinding medium i

    Jan 1, 1948

  • TMS
    Preparation Of Infrared Materials From Ultra fine Quartz Powder

    By Huaming Yang

    Infrared materials are a special kind of material widely used in military, biological engineering and chemical industry. However, the problems associated with them such as unstable properties, high co

    Jan 1, 2003

  • AUSIMM
    Preparation of Iron Oxide Feed Stock for Pig Iron/Sponge Iron Production - Role of NMDC

    By Sahoo K. C

    Traditionally, the blast furnace (BF) has maintained a dominant position as the primary source of iron units. Notwithstanding the efficient nature of the process in respect of its material and energ

    Jan 1, 1999

  • IMPC
    Preparation of Iron Oxide Red by Acid Leaching Tailings

    By F. L. Mentg

    The utilization of acid leaching tailings was studied. It is obvious that the Fe in acid leaching tailings can be leached into solutions as Fe2+. In this paper, the influence of conditions, including

    Jan 1, 2014