Search Documents

Search Again

Search Again

Refine Search

Publication Date
Clear

Refine Search

Publication Date
Clear
Organization
Organization
  • AIME
    Pyrometallurgy - Volatilization

    US 4,190,434 - In the thermal production of magnesium metal, a mixture of calcined dolomite, an iron- silicon-aluminum alloy as a reductant, and residual slag from the production of ferrochromium is s

    Jan 1, 1982

  • AIME
    Coal Preparation

    By M. E. Prunty

    Activity in coal preparation in 1967 was on the up-swing and all indications are that demands will be greater in the future. Feed tonnages to plants are increasing and a significant factor is that the

    Jan 2, 1968

  • AIME
    Technical Note - Overview Of US Department Of Energy Coal Preparation Research

    By R. E. Hucko

    Introduction The principal thrust of the US Department of Energy (DOE) coal preparation R&D program is to develop technology to reduce ash and sulfur content of US coals to levels where the resulta

    Jan 1, 1985

  • AIME
    Underclay Squeezes in Coal Mines

    By W. Arthur White

    Underclay squeeze is the plastic flowing of underclay below coal pillars into mined-out entries and rooms. Squeezes may be caused either by wet mine conditions where the moisture is taken up by the cl

    Oct 1, 1956

  • AIME
    Status of Mining Geophysics Today

    By Walter E. Heinrichs

    Before covering the separate methods used in mining geophysics, it may be well to mention some current basic geophysical prospecting concepts. As in most fields, a better understanding and means of st

    Aug 1, 1956

  • AIME
    Mathematical Modeling Of In Situ Uranium Leaching

    By Robert S. Schecter, Paul M. Bommer

    This paper presents the development of and results from a computer model of in situ uranium leaching. This model uses a streamline-concentration balance approach and is useful with a wide range of res

    Jan 1, 1979

  • AIME
    Simulation Techniques Pay Their Way As Management Tool

    By F. G. Loper

    Simulation as a mathematical technique is not new. However, recent increases in digital computer speeds and the ease of programming with languages such as Fortran have centered a good deal of attentio

    Jan 1, 1967

  • AIME
    Minor Element Behavior In Copper Smelting And Converting

    By R. E. Johnson, J. W. Donaldson, D. B. George

    Accurately predicting the minor element content of an anode product is an important part of an evaluation of copper smelting processes. A general review of the minor element behavior in copper smeltin

    Jan 1, 1976

  • AIME
    Selective Flotation Of Dolomite From Francolite Using Two-Stage Conditioning (c6b1e1c6-a2c1-4177-a84f-6d57bef7877c)

    By R. Chanchani

    It was reported earlier that francolite and dolomite from south Florida deposits cannot be selectively floated using conventional conditioning with sodium oleate as the collector. However, dolomite co

    Jan 1, 1986

  • AIME
    Annual Review – Geophysics and Geochemistry 1955

    By H. V. W. Donohoo

    Exploration in 1955 was marked by a trend toward large-scale programs using a number of geophysical techniques. These programs were initiated both to locate new mineral districts and to bring individu

    Feb 1, 1956

  • AIME
    Papers - A High-strength Silicon-brass Die-casting Alloy (T. P. 1123, with discussion)

    By Bruce W. Gonser, A. U. Seybolt

    A few copper-zinc-hasp alloys mppt die-casting requirements reasonably well, although improvements are desired. Aluminum bronzes, high-tin bronzes and some copper-nickel-zinc alloys can be die-cast, a

    Jan 1, 1940

  • AIME
    Papers - A High-strength Silicon-brass Die-casting Alloy (T. P. 1123, with discussion)

    By A. U. Seybolt, Bruce W. Gonser

    A few copper-zinc-hasp alloys mppt die-casting requirements reasonably well, although improvements are desired. Aluminum bronzes, high-tin bronzes and some copper-nickel-zinc alloys can be die-cast, a

    Jan 1, 1940

  • AIME
    Technical Notes - Allotropic Transformations in Titanium, Zirconium, and Uranium Alloys

    By Austin E. Dwight

    IT has been shown by Oelsen and Wever' that the effect of a solute element on the allotropic transformation in iron is dependent upon the quantity

    Jan 1, 1957

  • AIME
    New York Paper February, 1918 - Relation of Sphalerite to Other Sulphides in Ores (with Discussion)

    By L. P. Teas

    The main facts brought out by the study of the blende-bearing ores examined are as follows: 1. Chalcopyrite as minute triangular or rectangular dots, or as

    Jan 1, 1918

  • AIME
    Innovations In Processing Uranium Ores

    By J. B. Clemmer, W. L. Lennemann, J. B. Rosenbaum

    Security restrictions on processing uranium raw materials to yellow cake were lifted in August 1955, coincidental with the Geneva Conference on Peaceful Uses of Atomic Energy. Numerous reports and tec

    Jan 9, 1957

  • AIME
    Conversion From Autogenous to Steel Grinding Pays Off at Anaconda’s Weed Concentrator

    By A. D. Rovig, T. J. Fisher

    By converting its autogenous mills to steel ball mills at the C. E. Weed concentrator in Butte, Mont., The Anaconda Co. has achieved substantial increases in through- put tonnage, plus better recoveri

    Jan 10, 1975

  • AIME
    Cleveland Paper - Blast-Furnace Hearths and In-Walls

    By E. C. Pechin

    At the September meeting of the Iron and Steel Institute of Great Britain, Mr. Charles Wood, of the Tees Iron-works, read an interesting paper on "Further Improvements in Blast-Furnace Hearths," which

  • AIME
    Simplified Dispatching Board Boosts Truck Productivity at Cyprus Pima

    By Edward R. Mueller

    The application of a simple analog computer constructed in a home workshop has registered a 10% to 15% gain in truck productivity at the mammoth Pima mine, located 35 km (22 miles) south of Tucson, Ar

    Jan 8, 1977

  • AIME
    Institute of Metals Division - Hot Pressing of Molybdenum Powder

    By R. W. Heckel

    The densification of molybdenum powder by hot pressing has been studied as a function of time (up to about 3 x 104 sec) at pressures of 5000, 15,000, and 30,000 psi in the temperature range from 3700o

    Jan 1, 1965

  • AIME
    Wyoming State Geological Survey

    Wyoming State Geological Survey, Capitol bldg , Cheyenne, Wyoming. John G Marzel, State Geologist. Unfortunately, most of the publications of the Wyoming State Geological Survey are now out of pri

    Jan 1, 1933