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  • NIOSH
    Mineral Investigation Of The Beaver Meadows, Blind Horse Creek, Chute Mountain, Deep Creek/Battle Creek, And North Fork Of Sun River Wilderness Study Areas (BLM Nos. MT-075-110, 102, 105, 106, And 107), Lewis And Clark, And Teton Counties, Montana

    By Harry W. Campbell

    A mineral survey conducted by the U.S. Bureau of Mines in 1983 identified no mineral resources in the Beaver Meadows, Blind Horse Creek, Chute Mountain, Deep Creek/Battle Creek, and North Fork of Sun

    Jan 1, 1984

  • NIOSH
    Mineral Investigation Of The Gates Of The Mountains Wilderness Study Area, Lewis And Clark County, Montana ? Summary

    By Terry J. Close

    The Gates of the Mountains Wilderness study area is underlain by intrusive and sedimentary rocks, mainly limestone. No limestone has been produced from the study area; suitable material is more readil

    Jan 1, 1984

  • NIOSH
    Mineral Investigation Of The Goat Rocks Rare II Area, (No. 6036 (Parts A, C, And D), Lewis And Yakima Counties, Washington ? Summary (To Be Combined With USGS)

    By Thomas J. Peters

    The Goat Rocks RARE II further planning areas contain no known mineral resources and have very low mineral potentials. County mining records show only one mining claim area; however, no mineralized

    Jan 1, 1981

  • NIOSH
    Mineral Investigation Of The Golden Valley Wilderness Study Area (BLM No. CDCA-170), San Bernardino County, California

    By Richard S. Gaps

    In 1983 the U.S. Bureau of Mines conducted a mineral survey of the Golden Valley Wilderness Study Area (WSA), CDCA-170. The 29,887 acre WSA, located in the western Mojave Desert near Ridgecrest, Calif

    Jan 1, 1985

  • NIOSH
    Mineral Investigation Of The Jerry Peak, Jerry Peak West, And Boulder Creek Wilderness Study Areas (BLM Nos. ID-46-14, ID-46-14A, And ID-46-13) Custer County, Idaho ? Summary Statement

    By Fredrick L. Johnson

    The Jerry Peak, Jerry Peak West, and Boulder Creep: Wilderness Study Areas contain no identified mineral resources. Two workings, a 20-ft-long adit and a pit, were found in Paleozoic, brecciated, limo

    Jan 1, 1984

  • NIOSH
    Mineral Investigation Of The John Muir Wilderness; Fresno, Inyo, Madera, And Mono Counties, California

    By Fredrick L. Johnson

    In deposits of the John Muir Wilderness, tungsten is the principal metallic element. Gold, silver, copper, and molybdenum could be recovered as by-products from most of the tungsten deposits. More tha

    Jan 1, 1981

  • NIOSH
    Mineral Investigation Of The Lake Fork Rare II Area (No. 6290), Baker And Wallowa Counties, Oregon ? Introduction ? Summary Statement

    By Martin D. Conyac

    Results of the minerals survey indicate low potential for the discovery of placer gold along Deck Creek aid for copper, silver, and gold in PreTertiary rocks within the boundaries of the Lake Fork RAR

    Jan 1, 1983

  • NIOSH
    Mineral Investigation Of The Lower Saline Valley Wilderness Study Area (BLM No. CDCA-117A), Inyo County, California ? Summary Statement

    By Clayton M. Rumsey

    No producing or developing mines nor known mineral resources are in the Lower Saline Valley Wilderness Study Area. The inactive Bonanza Prospect has low potential for copper-gold-silver resources. Sto

    Jan 1, 1984

  • NIOSH
    Mineral Investigation Of The Mallard Study Area And Vicinity, Idaho County, Idaho

    By Ronald T. Mayerle

    In 1989, the U.S. Bureau of Mines conducted a mineral investigation of the Mallard study area near Elk City, Idaho. The study area comprises most of the original Mallard RARE II area (1-847) plus some

    Jan 1, 1991

  • NIOSH
    Mineral Investigation Of The Wheeler Ridge Rare II Area (No. 5040), Inyo And Mono Counties, California - Summary

    By Donald O. Capstick

    In 1981, U.S. Bureau of Mines personnel conducted a survey of claims and prospects in the Wheeler Ridge RARE II area to determine if mineral resources or potential for resources exists at deposits in

    Jan 1, 1983

  • SME
    Mineral Investment and Finance

    By Alfred Jr. Petrick, William A. Vogely

    INTRODUCTION The scope of mineral finance extends beyond the economic aspects of property evaluation to all of those activities involving acquisition and utilization of funds with an objective to

    Jan 1, 1985

  • SME
    Mineral Joint Venture Activities In China

    By I. J. Wu

    China’s land area, comparable in size to United States or Canada, contains diverse geological environments and mineral resource potential. The diversity in geological environments is such that the po

    Jan 1, 2000

  • SME
    Mineral Land Classification In California

    By Ralph Loyd

    One of the principal responsibilities of the California State Geologist is to provide local governments with maps and information regarding mineral resource occurrences within their jurisdiction. The

    Jan 1, 1995

  • SME
    Mineral Leaching Of Low-Grade Laterite Ores Using "Bioacids" By Molasses Fungal Metabolism

    By P. G. Tzeferis

    Factory beet molasses media were used as cheap sources of sucrose for microbial leaching of Greek nickeliferrous laterites using strains of Penicillium and Aspergillus sp. Nickel recoveries of up to 6

    Jan 1, 1995

  • CIM
    Mineral Liberation Analysis of Brunswick CuPb Rougher Flotation Streams

    By William Petruk, Donald Leroux, Michael Cooper

    "Brunswick's primary flotation circuit (CuPb) produces a low grade concentrate containing considerable amounts of undesirable sphalerite and pyrite. To determine the cause of the poor selectivity, a s

    Jan 1, 1996

  • SME
    Mineral Liberation Analysis: Theoretical Study And Computer Simulation

    By G. Barbery

    In Mineral Processing, the objective of most processes is the separation of mixtures of minerals, which are originally associated in composite particles. Feed preparation processes grinding for instan

    Jan 1, 1977

  • SME
    Mineral Liberation and its influence on Mineral Processing Operations

    By R. P. King

    INTRODUCTION It is now 21 years since Wiegel and Li published their paper on a random version of Gaudin's model for the mineral liberation phenomenon (Wiegel and Li, 1967). This paper was to

    Jan 1, 1989

  • CIM
    Mineral Liberation and Particle Breakage in Stirred Mills

    By R. Roufail

    Mineral liberation is accomplished by comminution and is the first step towards achieving successful downstream processes such as flotation or leaching. In metal mining, one of the most effective comm

    Jan 1, 2009

  • AUSIMM
    Mineral Liberation in Continuous Milling Circuits

    By Schneider CL

    The calculation of the liberation spectrum in the product from continuous milling operations is a problem of considerable importance, and it is difficult to solve because the population balance equa

    Jan 1, 1993

  • AUSIMM
    Mineral Liberation Prediction - Contribution of Image Analysis Based on Mathematical Morphology

    By Pina P, Pereira MJ

    The increasing exhaustion of raw materials entails the exploitation of poorer orebodies where the target mineral occurs frequently in a very fine dissemination. Consequently it is necessary to grind

    Jan 1, 1993