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  • AIME
    Metal Pit Props

    By Alfred Fisher

    CONSERVATION of mine timber is becoming in-creasingly important, and the consumer is en-couraged to use treated wood to permit longer life of mine timbers, and attempts are also made to substitute oth

    Jan 8, 1927

  • AIME
    Metal Prices

    By FREDERICW K. BRADLE

    I HAVE been puzzled by two lines of thought'; one emanating from Washington, D. C., to the effect that we must all cheer up, that in a very short time, measured in terms of months, prices would b

    Jan 1, 1930

  • SME
    Metal Production

    By Omar A. Muhtadi, R. Bruce Thorndycraft, David A. Milligan

    9.1 INTRODUCTION Precious metals in a leach solution are extracted, concentrated, and purified to complete the process begun in the heap and to produce an end product which will provide an economic p

    Jan 1, 1988

  • CIM
    Metal Recovery and Reducing of Environmental Loading of Copper Mine Tailings by High Pressure Leaching and SX-EW Process

    By L. Avramovic, B. Han, R. Jonovic, Z. Stevanovic, K. Haga, S. Dimitrijevic, A. Shibayama, L. Godirilwe, Y. Takasaki

    Pyrite (FeS2) and chalcopyrite (CuFeS2) which could not be recovered, are present in mine tailings discharged from Bor copper mine. About 0.3% of copper (Cu) is contained in these tailings, therefore

    Jan 1, 2019

  • IMPC
    Metal Recovery and Refining from MSW Incineration Bottom Ash

    By Y. X. Yang

    Bottom ash is a solid waste stream in a Waste-to-Energy (WTE) processing plant during the combustion of the municipal solid waste (MSW). In the Netherlands, bottom ash contains typically about 18% met

    Jan 1, 2014

  • TMS
    Metal Recovery and Refining from MSW Incineration Bottom Ash (d4c58b8f-bbaa-4632-bd5c-a7b6ea81a125)

    By R. Boom, C. F. Balentina, J. H. L. Voncken

    During vitrification of bottom ash generated from the combustion of municipal solid waste (MSW), a Fe-Cu based alloy phase with great value was formed. In order to find proper commercial use in metall

    Jan 1, 2008

  • SME
    Metal Recovery Applications Using a Combination of Ion Exchange and Electrowinning Using Emew® Technology

    By A. Janwong

    Ion exchange technology is becoming more prevalent for metal recovery from low concentration solutions. The products of ion exchange are typically a metal free stream (product stream) and a concentra

    Feb 23, 2014

  • TMS
    Metal Recovery From a Complex Sulphide Concentrate Using a Ferric Chloride Leach Process

    A modified Cuprex Metal Extraction Process (CMEP) leach process was used to extract Cu. Ni and Co from a complex sulphide concentrate. The standard leach was modified to a two-stage countercurrent lea

    Jan 1, 1996

  • SME
    Metal Recovery From Acid-Leach Processing Of Arsenic-Containing Copper Wastes

    By D. K. Steele

    The U.S. Bureau of Mines has investigated the recovery of metals from copper industry wastes by sulfuric acid leaching in a semi-continuous, bench-scale system to solubilize arsenic, copper, and molyb

    Jan 1, 1991

  • AIME
    Metal Recovery From Bronze Foundry Slags (27a147e9-e1f0-4988-9793-f7762afc52ef)

    By Ernest Darby

    WHEN bronze is melted in open-flame furnaces a considerable amount of slag is formed during the melting operation. This slag may be incidental to the melting practice or it may be formed intentionally

    Jan 1, 1928

  • TMS
    Metal Recovery From Electronic Scrap By Leaching And Electrowinning IV

    A novel process is being developed for metal recovery from waste electrical and electronic equipment involving a leach reactor coupled to an electrochemical reactor. Metals such as Ag, Au, Cu, Pb, Pd,

    Jan 1, 2003

  • SME
    Metal Recovery From Metallurgical Wastes

    By K. S. Gritton

    The U.S. Bureau of Mines has investigated methods for extracting metals from a variety of arsenic-containing smelter flue dusts. One proposed flowsheet includes a sulfuric acid leach, a cooling step t

    Jan 1, 1990

  • TMS
    Metal Recovery from NIMH Batteries

    By Carla Lupi

    NiMH sealed cells (portable cells) are today widely used in all consumer applications replacing primary alkaline batteries: wireless mobile communication, portable computers and camcorders, are the la

    Jan 1, 2000

  • CIM
    Metal Recovery from Pyrometallurgical Slags: Copper Matte Smelting Processes

    By S. Mostaghel, Fariba Azgomi, Steven Goodman, M. Oliazadeh

    "It is known that copper loss to the slag phase can be in the forms of chemical dissolution and mechanical entrainment. The contribution of each mechanism to the total Cu-loss depends on different par

    Jan 1, 2016

  • SME
    Metal Recovery From Solution: Designed Separations and the Quest for Value-Added Materials

    By K. Osseo-Asare

    Metal recovery from solution, i.e., the formation of a solid product from a purified aqueous electrolyte solution, is increasingly becoming more than a simple matter of bulk precipitation. In many cas

    Jan 1, 1989

  • TMS
    Metal Recovery From Spent Acid Solutions And Baghouse Bags Using The INMETCO Process

    By R. H. Hanewald

    The INMETCO process has been modified so as to recover nickel. chromium and Iron from a wide variety of metal containing waste-streams. This now includes the recovery of metals from spent acid solutio

    Jan 1, 1992

  • SAIMM
    Metal Recovery from TiCl4 slurry by Evaporation and Acid Leaching

    By X. Xiang, W. Xia, J. Yin

    "TiCl4 slurry containing valuable metals is an unavoidable by-product of the titanium ore chlorination process. The recovery of these valuable metals, which include titanium, niobium, tantalum, and al

    May 1, 2019

  • TMS
    Metal Recovery in Nickel Smelting and Converting Operations

    By Eric J. Grimsey

    Nickel smelting and converting can be viewed as processes in which iron is either partitioned or transported between matte and slag. Metal recovery depends on the mass of iron transported to slag, the

    Jan 1, 1993

  • TMS
    Metal Recycling And Waste Treatment (Keynote)

    By Yoshihiko Maeda

    It is said that the 21st century will be an era of the remedy of the global environment. In order to reserve natural resources for the future and to avoid the dispersion of heavy metals after usage an

    Jan 1, 2003

  • TMS
    Metal Recycling And Waste Treatment (Keynote) (17cb4845-0fc9-48c3-adaa-0827bc5dfefb)

    By Yoshihiko Maeda

    It is said that the 21 st century will be an era of the remedy of the global environment. In order to reserve natural resources for the future and to avoid the dispersion of heavy metals after usage a

    Jan 1, 2003