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  • CIM
    Nickel Refining in Finland

    By Toivo Toivanen

    The paper begins with a brief history of the nickel industry in Finland, and then deals with the introduction of the flash smelting process. The main part of the paper is devoted to nickel refining, w

    Jan 1, 1964

  • AIME
    Nickel Resources, Production and Utilization

    By E. S. Moore

    ALTHOUGH nickel was in use in alloys long before the Christian era, the metal was not discovered until 1751, when Cronstedt recognized it in niccolite from Sweden. The Chinese apparently used a nickel

    Jan 1, 1932

  • CIM
    Nickel Rim South -Xstrata?s First New Mine in Sudbury in 20 Years

    By Rick Collins

    Presentation Agenda 1.Sudbury Basin 2.Diamond Drilling 3.Planned Production 4.Safety 5.Timeline 6.Sustainable Development 7.Scope Elements 8.Progress 9.Delivery Approach 10.Owners and EPCM

    May 1, 2009

  • AUSIMM
    Nickel Slags from the Flash Smelter at Kalgoorlie, Western Australia

    The mineralogy of nickel slags from the flash smelter of Western Mining Corporation Ltd. at Kalgoorlie was studied. Residual magnesium silicates in the sulphide concentrates raise the melting point of

    Jan 1, 1976

  • TMS
    Nickel Smelter Slag Microstructure and its Effect on Slag Leachability

    By llya Perederiy, Vladimiros G. Papangelakis, Indje Mihaylov

    "Nickel slags obtained from various smelting furnaces and converters differ in terms of their chemical composition and microstructure. The microstructure of the slag is largely affected by how fast th

    Jan 1, 2012

  • CIM
    Nickel smelting at Copper Cliff: the second fifty years

    By J. W. Matousek

    Since the late 1800s, copper-nickel ores have been mined and smelted in the Sudbury area. The Canadian Copper Company, the Copper Cliff ancestor of Inco Limited, commenced operations with a blast furn

    Jan 1, 1999

  • IOM3
    Nickel sulphide mineralization in the lick fork prospect, Virginia, U.S.A.

    By K. C. Misra, W. Wrightson Jr.

    The Lick Fork prospect shows appreciable nickel sulphide mineralization in a narrow, steeply dipping, layered sequence of metamorphosed hornblende peridotite, gahhro and hornblende gahhro, intrusive i

    Jan 1, 1984

  • SME
    Nickel Supply /Demand

    By Thomas F. Torries

    It does not take sophisticated economic analysis to determine the current status of nickel production and demand (Figure 1). One only needs a quick glance at the balance sheets of the major nickel pro

    Jan 1, 1982

  • TMS
    Nickel, Cobalt and Chromiun Recovery from Nickel Laterite Leach Liquors by Biosorption Using Immobilized Algal Biomass

    By S. Agatzini-Leonardou

    The objective of this work was to prove repeated loading capacities and investigate the selectivity of physically stabilized algal biomass from Spirulina platensis and Chlorella sp. for the removal an

    Jan 1, 1997

  • CIM
    Nickel, Copper, and Total Precious Metal Recovery from Twin Metals Minnesota Concentrates Using the CESL Process

    By K. M. Mayhew, G. D. Barr, T. M. McCoy, C. T. Knilans

    "Teck Resources Limited (“Teck”) has developed and extensively tested on a continuous basis the CESL Technology hydrometallurgical process for treating copper and nickel sulphide concentrates, includi

    Jan 1, 2017

  • AIME
    Nickel-Antimony-Lead-Copper Bearing Alloys

    By John T. Eash

    DURING the course of the war the supply of tin in this country has steadily decreased and a continued effort has been made since the beginning of the emergency to use alloys that are either tin free o

    Jan 1, 1945

  • AIME
    Nickel-Bearing Alloys in the Production and Refining of Petroleum

    By Byron B. Morton

    NICKEL-BEARING alloys are associated with petroleum in the fields of exploration, production, and refining. In the first- named field the geologist of today makes use of such instruments as the seismo

    Jan 1, 1935

  • AIME
    Nickel-Chromium Alloys

    By Leon Hart

    THE nickel-chromium alloys of importance are those containing iron and those free from iron. The most important alloys containing iron, with regard to high tonnage, are the nickel-chromium steels. Str

    Jan 1, 1921

  • CIM
    Nickel-Cobalt Separation by Ozonation

    By C. Nikolic

    A process utilizing ozone for the precipitation of cobalt from nickel sulphate liquors containing ammonium sulphate has been developed. Best results were obtained using nickel carbonate to maintain so

    Jan 1, 1978

  • SME
    Nickel-Copper Mine Uses Air Cannons to Unclog Chutes

    By Mike Moody

    "No matter what type of ore is being extracted from a mine, mucking with front loaders can be accompanied by wet fines that cling to every surface. Once loaded into a hopper or conveyer transfer chute

    Aug 1, 2019

  • CIM
    Nickel-Copper Smelter at Falconbridge

    By J. R. Gill

    Introduction The property and plant of the Falconbridge Nickel Mines, Limited, is situated about 13 miles northeast from Sudbury, in Falconbridge township, near the eastern extremity of the southern

    Jan 1, 1932

  • AIME
    Nickel-Iron Alloys Produced By Powder Metallurgy

    By Laurence Delisle, Aaron Finger

    THE alloys formed by the addition of nickel to iron by convelltional metallurgical procedures show physical properties that differ widely from those of the individual metals. The effect of alloying on

    Jan 1, 1946

  • AUSIMM
    Nickel-Iron Exchange in Pyrrhotite

    The uptake of nickel into the lattice of pyrrhotite,Fel_oS has been studied experimentally in the temperaturerange 200 DC to 760 DC. Nickel from both aqueous solutionsand salt melts diffuses rapidly i

    Jan 1, 1980

  • AUSIMM
    Nickel-Iron Exchange in Pyrrhotite (5214865a-3610-487f-bdc8-04dc3e1ec1a9)

    The uptake of nickel into the lattice of pyrrhotite, Fe1 _1J S was studied experimentally in the temperature range 200°C to 760°C. Nickel from both aqueous solutions and salt melts diffuses

    Jan 1, 1972

  • TMS
    Nickel-Metal Hydride Baffery Recycling

    By G. R. Palmer

    The success of future electric vehicles will depend greatly upon the power supply choices made today. Research is presently being conducted by automotive engineers and electrochemists to determine wha

    Jan 1, 1994