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  • AIME
    Reservoir Engineering–General - Miscible Displacement–A Multilayer Technique for Predicting Reservoir Performance

    By G. W. Doepel, W. P. Sibley

    A three-dimensional, multilayer, mathematical model has been developed for predicting performance by mis-c.ible displacement. Areal and vertical coverage, total gas-oil ratio, propane-oil ratio and oi

  • AIME
    Educational Methods At The Copper Queen

    By Charles Willis

    MANY of the failures in vocational education are due to the fact that the educational methods were not designed to the capabilities, habits, and environments of those to be trained; rather they were b

    Jan 7, 1919

  • AIME
    Experiments In The Recovery Of Tungsten And Gold In The Murray District, Idaho

    By Robert Goodrich

    THERE is a small area about Murray where bedded gold quartz veins occur in Prichard slate. The ore taken from the upper levels, during the early days, was free milling and was treated by stamp milling

    Jan 8, 1917

  • AIME
    The Ores In The Limestone At Bingham, Utah

    By Richard Hunt

    BINGHAM has produced 6 per cent. of this country's copper. In total production, it ranks fourth among the copper camps of North America, the order being Butte, Michigan, Bisbee, and Bingham. In i

    Jan 3, 1924

  • AIME
    Minerals Beneficiation - Ferrograde Concentrates from Arkansas Manganiferous Limestone

    By M. M. Fine

    Normally the U. S. produces less than 10 pct of its annual manganese requirement. About 95 pct of domestic consumption is used by the steel industry.' The strategic and critical nature of mangane

    Jan 1, 1960

  • AIME
    Crushing In The Pit

    Open pits and quarries are the major sources of all hard rock tonnages mined today. Normally, ore is fractured from the pit bench face by blasting and then truck-hauled to a primary crusher on the pit

    Jan 1, 1978

  • AIME
    Smelting Lead Ores in the Blast Furnace (dbe24c98-2642-47f1-9029-feaa82006808)

    Discussion of the paper of IRVING A. PALMER, presented at the Salt Lake meeting, August, 1914, and printed in Bulletin No. 91, July, 1914, pp. 1447 to 1460. L. S. AUSTIN, Salt Lake City, Utah.-With t

    Jan 11, 1914

  • AIME
    Getchell, Nevada - History Of Discovery, Mining, Exploration Of The Getchell Mine, Humboldt County, Nevada

    By B. R. Berger

    The Getchell area in the northern Osgood Range, Humboldt County, Nevada, was first prospected in the late 1800s for silver, copper, and gold; the first recorded mention of mining activity concerned a

    Jan 1, 1985

  • AIME
    Strength Distribution In Sunk Brass Tubing

    By G. B. Kasik, George Sachs, George Espey

    IT has been reported frequently that the hardness and strength vary over the cross section of cold-worked, particularly cold-drawn, material. Brass rod and wire usually has been found to possess a max

    Jan 1, 1941

  • AIME
    Chrome-Ore Deposits In Cuba

    By Ernest Burchard

    A RECONAISSANCE of the chrome and manganese'1ore deposits of Culm was made in the spring of 191s by Albert Burch representative of the U. S. Bureau of Mines and the writer representing the U. S.

    Jan 9, 1919

  • AIME
    Reports On Technological Research - Errors In Current Random Fracture Treatments Examined

    By L. G. Austin, R. R. Klimpel

    This communication points out that serious errors exist in some current treatments of the random fracture of solids, including the prior treatments by Klimpel and Austin, Gilvarry, and Gaudin and Melo

    Jan 8, 1968

  • AIME
    Minerals Beneficiation - On the Limit of Comminution

    By C. C. Harris

    A critical literature review leads to a descriptive model of tumbling mill operation based upon energy partition concepts and the necessary requirements for particle fracture. As grinding proceeds int

    Jan 1, 1968

  • AIME
    Effect Of A Weak Layer In Slope Stability

    By J. Vakili

    The objective of this paper is to present a practical method for calculating minimum safety factors of rock slopes with a horizontal layer of weak material. It is demonstrated that the most critical f

    Jan 1, 1985

  • AIME
    Boston Paper - A Glossary of Furnace-Terms in English, French and German

    By Thomas Egleston

    The uncertainty of finding the exact equivalents fortechnical expressions in different languages has led me to think that a glossary of furnace-terms would be useful to members of the profession. I wa

    Jan 1, 1888

  • AIME
    Progress In Hydraulic Mining Of Coal

    By David M. Parkes

    This paper outlines the achievements to date at the British Columbia mine of Kaiser Resources Ltd. Almost one million raw short tons (855,000 metric tonnes) are now produced per year from a single mon

    Jan 1, 1976

  • AIME
    General Design Sulphide Ore Plant

    By Wilbur Jurden

    THE writer's first experience with a nonferrous reduction plant of great magnitude was at the Washoe reduction works of Anaconda some 35 years ago. Here was a plant which had been planned with re

    Jan 1, 1952

  • AIME
    Statistics In Aid Of Interpreting Fracture Data

    By E. Z. Lajtai

    The probability distribution of fracture data from a rock mechanics test contains information about the effectiveness of the testing procedure and/or about the nature of the operating failure mechanis

    Jan 1, 1982

  • AIME
    Improve Your Capital Equipment Decisions!

    By A. Bruce Matthews

    Of the many opportunities in the mining industry to invest funds to improve operations, there is always some limit in every company as to how much can be spent each year for the acquisition of capital

    Jan 3, 1963

  • AIME
    Mining - Ground Water Control in Underground Mining

    By R. C. Mahon

    THE importance of ground water control in glacial drift overlying mines is widely recognized. Adequate handling of the problem results in considerable saving in overall pumping costs, as the cost of p

    Jan 1, 1955

  • AIME
    Institute of Metals Division - The Cerium-Copper System

    By P. A. Tucker, T. B. Rhinehammer, D. E. Etter, J. E. Selle

    The Ce-Cu phase diagram was investigated by differential thermal analysis and rnetallography. Two congruent melting compounds, CeCu2 (817°C) and CeCua (938°C), and three incongruent cornpounds, CeCu (

    Jan 1, 1964