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  • AIME
    Papers - Non-ferrous Metallurgy - Handling of Fine Ores and Concentrates in Salt Lake Valley Lead Smelters (With Discussion)

    By L. D. Anderson

    WHEN, after years of troublous experiences in roasting sulfide ores with heavy dust and fume losses resulting from the equipment and methods first available, there appeared on the scene of metallurgy

    Jan 1, 1929

  • AIME
    Papers - Non-ferrous Metallurgy - High-zinc Slags in Australia (With Discussion)

    By Philip S. Morse

    THE Australian lead-smelting plants began to use charges carrying high zinc percentages somewhat earlier than was common with American plants. When lead smelting first started in Australia the immense

    Jan 1, 1929

  • AIME
    Papers - Non-ferrous Metallurgy - Lead Alloys for Anodes in Electrolytic Production of Zinc of High Purity (With Discussion)

    By A. G. Taylor, H. P. Ehrlinger, U. C. Tainton

    FOR the last 15 years lead has been the standard material for anodes in electrolytic zinc production and it has been generally accepted that this lead should be as free as possible from impurities. La

    Jan 1, 1929

  • AIME
    Papers - Non-Metalic Minerals - Aggregate Production at Hoover Dam

    By Thomas M. Price

    Sand production for use in hydraulic concrete is probably the most important element affecting the physical characteristics of the resulting concrete in the opinion of most engineers, aggregate produc

    Jan 1, 1934

  • AIME
    Papers - Non-Metalic Minerals - Development of the Grande Ecaille Sulfur Deposit

    By Wilson T. Lundy

    The history of the production of sulfur from salt domes in Louisiana and Texas originated with the operations of the Union Sulphur CO. at Sulphur, La., followed by the Freeport Sulphur Co. at Bryanmou

    Jan 1, 1934

  • AIME
    Papers - Non-Metalic Minerals - Economic Notes on the Nonmetallic Mineral Industries (With Discussion)

    By Paul M. Tyler, Oliver Bowles

    The extensive employment of nonmetallic minerals antedates the use of metals, but only within the last two decades has the production of nonmetals begun actually to keep pace with the complicated acti

    Jan 1, 1934

  • AIME
    Papers - Non-Metalic Minerals - Economic Results of the New Technique in Phosphate Recovery (Abstract)

    By Charles E. Heinrichs

    There arc still ample reserves of phosphate in Florida and Tennessee, but the richest low-cost areas have been exhausted. The miners, by the introduction of more efficient equipment, have succeeded in

    Jan 1, 1934

  • AIME
    Papers - Non-Metalic Minerals - Fluorspar Deposits in Western United States (With Discussion)

    By Ernest F. Burchard

    Fluorspar is found in most of the states from the Rocky Mountains westward, and commercial production of the mineral has been reported from Arizona, Colorado, Nevada, New Mexico, Utah and Washington.

    Jan 1, 1934

  • AIME
    Papers - Non-Metalic Minerals - Milling Methods and Costs at the No. 2 Concentrator of the Phosphate Recovery Corporation (With Discussion)

    By H. S. Martin

    The Phosphate Recovery Corporation operates three flotation plants, NOS. 1 and 2 concentrators about three miles northeast of Mulberry, Florida, and No. 3 plant at Wales, Tennessee. These plants repre

    Jan 1, 1934

  • AIME
    Papers - Non-Metalic Minerals - Uses of Coal in the Ceramic Industry (Abstract)

    By H. E. Nold

    High-volatile coals are most desirable for kiln firing. Low-volatile and even anthracite coals can be used successfully. Most periodic kilns use coal and are hand fired. A few stoker installations hav

    Jan 1, 1934

  • AIME
    Papers - Non-Metalic Minerals - Vermiculite-Production and Marketing by the Zonolite Company

    By W. S. Steele

    Vermiculite is a nonmetallic mineral of the mica family, probably related to biotite mica. Its occurrence has been noted at numerous places in the United States and in some foreign countries, but it c

    Jan 1, 1934

  • AIME
    Papers - Nonferrous Metallurgy - A Petrographic Study of Lead and Copper Furnace Slags (With Discussion)

    By Roy D. McLellan

    Electrolytic production of cadmium at the Great Falls plant started in the first part of the year 1925. Prior to that time, an experimental unit had been in operation for a few months during the year

    Jan 1, 1930

  • AIME
    Papers - Nonferrous Metallurgy - Arsenic Elimination in the Reverberatory Refining of Native Copper (With Discussion)

    By C. T. Eddy

    The refining of native copper in the reverberatory furnace, as practiced in the Lake Superior district of Michigan, is very similar to the reverberatory melting and refining of cathodes, but the prese

    Jan 1, 1931

  • AIME
    Papers - Nonferrous Metallurgy - Electrolytic Cadmium Plant of Anaconda Copper Mining Co. at Great Falls, Montana (With Discussion)

    By W. E. Mitchell

    The ore that is being treated by the present plant lies between the leached zone, or capping, and the mixed sulfide and oxide zone. The principal copper minerals are chalcanthite (CuS04.5H20), brochan

    Jan 1, 1930

  • AIME
    Papers - Nonferrous Metallurgy - Extraction of Tantalum and Columbium from Their Ores

    By Colin G. Fink, Leslie G. Jenness

    Tantalum and columbium occur together in tantalite and columbite ores, which may be considered as ferrotantalate (FeTaz06), with part of the iron and tantalum replaced by manganese and columbium respe

    Jan 1, 1931

  • AIME
    Papers - Nonferrous Metallurgy - Failures of Cast-iron Kettles in Lead Refining (With Discussion)

    By Carl E. Swartz

    For many years kettles used in the melting and refining of lead and other nonferrous metals and alloys have been made of cast iron. The logic of this probably lies in the fact that cast iron has been

    Jan 1, 1931

  • AIME
    Papers - Nonferrous Metallurgy - High-silica Retorts at the Rose Lake Smelter (With Discussion)

    By G. L. Spencer

    There is no question as to the importance of the part played by the retort in modern zinc smelting. A satisfactory retort should have properties that will result in resistance to slagging action and f

    Jan 1, 1931

  • AIME
    Papers - Nonferrous Metallurgy - Improvements in the Metallurgy of Quicksilver (With Discussion)

    By L. H. Duschak

    Electrolytic zinc produced from sulfate solution and with pure lead anodes is always contaminated with a small and varying percentage of lead. The purpose of this investigation is to determine the cha

    Jan 1, 1930

  • AIME
    Papers - Nonferrous Metallurgy - Investigation of Anodes for Production of Electrolytic Zinc (With Discussion)

    By H. R. Hanley, D. F. Walsh, C. Y. Clayton

    Lead-refining practice at the Bunker Hill differs to some extent from that of other United States refineries using the Parkes process, in that the Bunker Hill has reverted to a custom used years ago o

    Jan 1, 1930

  • AIME
    Papers - Nonferrous Metallurgy - Investigation of Anodes for Production of Electrolytic Zinc, II

    By H. R. Hanley

    The characteristics of alloyed anodes and their influence on the products of electrolysis and power consumption have been noted previosly ously in the literature.' This paper presents data in con

    Jan 1, 1931