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  • AIME
    Copper Reduction

    By C. R. Kuzell

    IN COMPARISON with recent years 1932 has yielded much less tangible evidence of progress in copper reduction and refining. The industry has been extremely quiet, especially in the United States. Desig

    Jan 1, 1933

  • CIM
    Copper Refining Electrolyte Purification using SuperLig® Molecular Recognition Technology for Bismuth Removal—The Experience at Birla Copper

    By R. L. Bruening, L. Navarro, Izatt. S. R., R. Adiga, R. M. Izatt, N. E. Izatt, A. Sharma, N. R. Patel, B. V. Rao

    Bismuth is a notorious contaminant in the electrolytic refining of Cu that can cause cathodes to fail to meet ASTM International standards and not be suitable for use in Cu rod and other downstream pr

    Jan 1, 2019

  • AIME
    Copper Refining in the United States.*

    By T. Egleston

    THE materials containing copper which are refined in the United States, are, for the most part, the native, coppers of Lake Superior. Until quite recently but little pig copper was made for sale, and

    Jan 1, 1881

  • CIM
    Copper Refining: Anode Furnace Operation

    By Warren A. Sheaffer

    THE chief uses for copper are as a conductor of electricity and as the chief component in brasses and bronzes. For such uses, the copper must be of very high purity. H the impurities are zinc, iron, l

    Jan 1, 1942

  • TMS
    Copper Removal From Ferronickel

    By Jianjun Wang, Jiaqing Peng, Lingen Luo, Zhenbang li, Yinghe Lin

    Copper removal from ferronickel by FeS has been exploring studied. It is found that the decopperizing agent FeS makes the copper removal in ferronickel effectively. The effects of FeS addition amount,

    Jan 1, 2015

  • CIM
    Copper Roast Segregation Process: A Promise to be Fulfilled and a Challenge for Material Handling Technology

    By A. del Campo A.

    The roast segregation process, which was patented in 1974, makes use of a set of chemical reactions that are different from the traditional sequential oxidation of iron and copper sulfides used by all

    Jan 1, 2007

  • AUSIMM
    Copper Scalping at ValeÆs Matte Separation Plant

    By S Girard, L Rowland, V Lawson, Y Shields

    Since 1948, ValeÆs Matte Separation Plant has been successfully using magnetic separation and froth flotation to separate the copper sulfide, nickel sulfide and Ni-Cu metallic alloy contained in Besse

    Oct 29, 2012

  • CIM
    Copper Scrap Marketing

    By Paul B. Warrington

    This paper presents a discussion of the factors affecting copper scrap markets, including such items as price levels, freight. grades of material, sources and packaging. Reference will also be made to

    Jan 1, 1977

  • SAIMM
    Copper slag as a potential source of critical elements - A case study from Tsumeb, Namibia

    By S. Lohmeier, D. Gallhofer, B. G. Lottermoser, T. Schirmer

    At a time of resource consumption, it is important to study the chemical composition of mining and metallurgical wastes to prevent the dissipative loss of metals and metalloids from the mining value c

    Mar 1, 2021

  • TMS
    Copper Smelter By-Product Acid

    By I. C. Knight

    The current levels of copper smelter by-product acid production are reviewed on a regional basis, together with the possible changes in the future. There will be increasing pressure for all smelters t

    Jan 1, 1996

  • AIME
    Copper Smelter Design For The 70's

    By Clint L. Milliken

    The smelter is often considered the flywheel of the copper industry. No other unit can produce such a uniform product from so many starting materials. Direct-smelting ore, concentrate, precipitate, re

    Jan 1, 1971

  • CIM
    Copper Smelter Projects: Installation and Operation of Large Kumera Steam Dryers

    By S. L. Chen

    The Kumera Technology Center developed a unique type of steam dryer for drying copper concentrate in the mid 1990s. The dryer has been chosen in several copper smelter projects since 1999. To expand p

    Jan 1, 2007

  • TMS
    Copper Smelting at Hindustan Copper Limited's Indian Copper. Complex, Ghakila

    By S. L. Kher

    The Singhbhum Copper Belt located in the state of Bihar in Eastern India bears evidence of ancient workings and indicates the existence of a civilized habitation in this region in the past. It was in

    Jan 1, 1976

  • TMS
    Copper Smelting by The International Nickel Company of Canada, Limited

    By Staff

    The uninitiated, first-time visitor to the Copper Cliff Smelter of The International Nickel Company frequently finds it strange that the world's largest nickel producing works is located at a sit

    Jan 1, 1976

  • AIME
    Copper Smelting In Japan*

    By Manuel Eissler

    INTRODUCTION THE history of copper metallurgy in Japan goes back into remote ages, of this there is abundant proof, and that the working of this metal is closely connected with the artistic developme

    Jan 11, 1914

  • AUSIMM
    Copper Smelting in South Australia The First Fifty Years

    By Drew GJ

    Smelting is a process in which heat is applied to ores to produce metals. Impurities are removed by segregation in the slag, or converted to gases or sublimates and discharged up the flues. Mate- r

    Jan 1, 1987

  • SAIMM
    Copper solvent extraction on the African Copperbelt: From historic origins to worldleading status

    By O. S. Tinkler, K. C. Sole

    Approximately 20% of current world copper cathode output is produced using a hydrometallurgical process route, generally referred to as the leach–solvent extraction–electrowinning flowsheet. Since its

    Jul 5, 2023

  • AIME
    Copper Stools for Ingot Molds Find Increasing Application

    By H. B. Kinnear

    THE first copper stool used under an ingot mold to receive molten steel has recently been taken out of service after it had received ingots amounting to 6012 gross tons. This stool, weighing 8330 lb.

    Jan 1, 1936

  • AIME
    Copper Sulfate as Flotation Activator for Sphalerite

    By O. C. Ralston

    THE use of copper sulfate for improving the flotation behavior of sphalerite is probably at least 15 years old. The original discovery of its activating influence is somewhat obscure. The story goes t

    Jan 1, 1929

  • TMS
    Copper Sulfate Recovery Using Fluidized Bed Crystallization

    By Martin B. Schranz

    Copper sulfate pentahydrate is recovered from the spent etchant waste stream of a printed circuit board manufacturing facility by cooling crystallization. The fluidized bed crystallizer contains subme

    Jan 1, 1997