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  • SME
    Minnesota Mining Boasts Another Boom Year

    By William R. Yernberg

    The combined 80th Annual Minnesota Section of SME Meeting and 68th Annual University of Minnesota Mining Symposium was held April 17 and 18, 2007, in Duluth, MN. About 350 mining industry professional

    Jan 1, 2007

  • AIME
    Minnesota Offers Recreational Opportunities with Iron Mining Display For Visitors at Regional Meeting

    By AIME AIME

    CONVENTION plans for the A.I.M.E. Regional Meeting to be held on the Minnesota Iron Range Aug. 12 to 1.5 are being completed to give the visiting member?s from all parts of the country a wide variety

    Jan 1, 1941

  • SME
    Minnesota SME Section meeting lays out strategies for a new generation of mining

    Two key strategies for a new generation of mining are developing domestic raw material production and doing so in an environmentally responsible way, according to presenters at the 83rd annual meeting

    Jul 1, 2010

  • AIME
    Minnesota State Geological Survey

    Geological and Natural History Survey of Minnesota, Minneapolis, Minn W. H Emmons, Director A list of publications will be sent upon application Orders for publications should be addressed to The U

    Jan 1, 1933

  • AIME
    Minnesota's Iron Mining Industry

    By AIME AIME

    APROXIMATELY one third of the world's iron ore is mined in the United States; and about 80 per cent of this third is mined in the Lake Superior ore region, and about 60 per cent in Minnesota. Th

    Jan 1, 1941

  • SME
    Minnesota's Vibrant Mining Industry Ranks Third In Revenues Generated

    By Greg Beckstrom

    Minnesota is a major mining state. This statement is not a dream or stretch goal but is a fact. As reported in a recent edition of Mining Engineering magazine, Minnesota ranks as the third largest sta

    Jan 1, 2012

  • SME
    Minntac Phase III - Heat Recuperation

    By R. D. Lopez

    The concept of "heat recuperation" for the grate-kiln pelletizing system was first implemented at the Sydvaranger plant in Norway in 1974. Essentially, heat recuperation involves bringing hot air from

    Jan 1, 1980

  • AUSIMM
    Minor Element Composition of Sphalerite and Pyrite as Petrogenetic Indicators

    Studies of the minor element content of sphalerite and pyrite have generally been concerned with individual deposits or localised groups of deposits. However, a small number of more regional inves

    Jan 1, 1987

  • TMS
    Minor Element Control By Vacuum Calcination And Recycling Of Copper Smelter Dust

    By Jin Qiu

    Experiments were performed to determine the extent of minor element elimination that occurred when mixtures of copper smelter dust and copper concentrate, were calcined under vacuum. Almost complete

    Jan 1, 2005

  • SME
    Minor Element Distribution In Wall Rocks From The Mascot-Jefferson City Zinc District, Tennessee

    By J. F. Snyder

    Minor elements determined by atomic absorption spectroscopy include: zinc, cadmium, copper, cobalt, nickel, chromium, manganese, and iron. Of these elements, only three; zinc, cadmium, and copper are

    Jan 1, 1977

  • CIM
    Minor Element Tolerance and Control in Copper Smelting

    By A. E. Wraith, R. Harris, J. Qiu, R. Parra

    Small pilot scale experiments have shown that it is possible to almost fully eliminate the minor elements (ME), namely As, Sb, Bi and Pb contained in smelter dusts by vacuum calcination of mixtures of

    Jan 1, 2007

  • TMS
    Minor Feed Materials and Model Sensitivity

    By W. G. Davenport

    This chapter examines three minor influences on flash smelting's industrial oxygen and oil requirements, i.e.: (a) recycle of molten converter slag to the flash furnace (b) gangue oxides and ca

    Jan 1, 2001

  • AIME
    Minor Industrial Minerals

    By H. D. Keiser

    Minor industrial minerals included in this chapter are: the alum minerals, bromine, calcium chloride, epsomite and other natural magnesium salts, iodine, meerschaum, quartz, industrial crystals other

    Jan 1, 1960

  • AIME
    Minor Industrial Minerals (e22cf901-dd07-4dd6-8181-b4791c6af219)

    By Paul M. Tyler

    MINOR industrial minerals included in this chapter are: the alum minerals, bromine, calcium chloride, epsomite and other natural magnesium salts, iodine, meerschaum, quartz, industrial crystals other

    Jan 1, 1949

  • AIME
    Minor Metals - Antimony: Its Metallurgy and Refining in Recent Years

    By Chung Yu Wang, Guy C. Riddle

    There are found in nature upward of II2 minerals containing antimony, but only a few of them, listed in Table I, can be considered as antimony ore-forming minerals. Stibnite (Sb2S3), antimony sulph

    Jan 1, 1944

  • NIOSH
    Minor Metals - Arsenic (545169d6-93ee-43ea-8b17-3e028d7e5f60)

    By H. J. Schroeder

    Legislation and Government Programs.-The Occupational Safety and Health Administration (OSHA) accepted written comments until July 23, 1976, and held an informal hearing on August 24, 1976, to receive

    Jan 1, 1978

  • NIOSH
    Minor Metals - Arsenic (e4588a90-3112-48ec-96e1-69ab226be863)

    By Gertrude N. Greenspoon

    Legislation and Government Programs.-The Occupational Safety and Health Administration (OSHA) held public hearings in early 1975 on proposed standards for exposure to inorganic arsenic. The findings o

    Jan 1, 1977

  • AIME
    Minor Metals - Beryllium

    By Donald M. Liddell

    From a commercial standpoint, the only beryllium mineral warranting attention is beryl, 3Be.Al2O3.6SiO2, which is of fairly widespread occurrence. The chief deposits are in Brazil, Argentina, India, C

    Jan 1, 1944

  • NIOSH
    Minor Metals - Cesium And Rubidium

    By C. T. Baroch

    CESIUM-137 ISOTOPE began to displace cobalt-60 III the treatment of cancer during 1956. Production and Consumption.-Consumption of cesium and rubidium was approximately the same as in 1955. Producti

    Jan 1, 1958

  • NIOSH
    Minor Metals - Cesium And Rubidium (096d63f4-744b-4c6a-8d0f-985747cf8613)

    By Charles T. Baroch

    RESEARCH strengthened the position of cesium as the preferred material (commonly but erroneously called "fuel") for ionic propulsion engines. Its use as an element of the plasma thermocouple for gener

    Jan 1, 1960