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  • CIM
    Lead Flotation from Rod and Ball Mill Discharge at Nanisivik Mines Limited

    By J. Goyman, K. R. Rawling

    "1.1 Location and Transportation ServicesNanisivik Mines Ltd. is located at latitude 73°, 3,200 km north of Montreal and 700 km north of the Arctic circle, on the south side of Strathcona Sound, which

    Jan 1, 1984

  • AUSIMM
    Lead Flotation Practice And Control At North Broken Hill Limited

    By Sandy W

    This paper examines the effects of a significant number of plant alterations and modifications to the lead flotation circuit during the past five years. Metallurgical effort is directed largely at

    Jan 1, 1983

  • IMPC
    Lead Immobilization in Artificial Contaminatd Soil Using Sulfur-Impregnated Carbonacious Material Derived From Rice Straw

    By T. Wajima

    "A novel carbonaceous immobilizing agent for heavy metal contaminated soil was prepared from rice straw using sulfur immersion and pyrolysis, and the lead immobilization in artificial contaminated soi

    Jan 1, 2018

  • SAIMM
    Lead in South Africa

    By A. A. Snodgaass

    This paper reviews lead as a commodity, starting with a brief historical outline and dealing with the various uses of lead in some detail. It then goes on to discuss some statistics in relation to the

    Jan 1, 1986

  • TMS
    Lead in the 1990s: Continuing Growth or Beginning of the End?

    By Jeffrey L. Zelms

    Environmental issues and how they are addressed -- or not addressed -- by the lead industry in the 1990s will determine the eventual fate of lead mining in both the U.S. and worldwide. Clearly, govern

    Jan 1, 1990

  • AIME
    Lead in the Depression

    By Clinton H. Crane

    IN October, 1925, J. R. Finlay delivered an address entitled, "The Future Price of Lead." Lead was then selling at 8.85c. and Mr. Finlay and most of the rest of us were concerned about the shortage. N

    Jan 1, 1932

  • TMS
    Lead Ions And Sphalerite Recovery In Copper Rougher Flotation

    By C. Sui

    A common objective in many Cu/Zn concentrators is to reduce the loss of Zn to the Cu-concentrate. One suspected source of the problem is accidental activation of sphalerite by heavy metal ions such as

    Jan 1, 1999

  • AUSIMM
    Lead Isotope Classification of the A.B.H. Consols and Brownes Shaft Veins at Broken Hill, N.S.W.

    Lead isotope measurements indicate that lead from the A.B.H. Consols mine and two transgressive veins in Browne's shaft is "Thackaringa" type and not "Broken Hill" type.

    Jan 1, 1970

  • AIME
    Lead Metallurgists

    By W. T. Isbell

    Although the pressure to meet the heavy demand for lead still took precedence over new metallurgical developments in the field of roasting, smelting, and refining of lead in 1948 there nevertheless ha

    Jan 1, 1949

  • AIME
    Lead Metallurgists Work for Economies

    By G. E. Johnson

    LEAD SMELTERS AND REFINERS in 1932 were confronted with the problem of adjusting operations and costs to curtailed production and consumption at reduced prices, a problem which has been partially solv

    Jan 1, 1933

  • AIME
    Lead Mining and Smelting at Galetta, Ont.

    By William Newnam

    LEAD mining has been carried on in several localities of the Province of Ontario in a desultory fashion for the past 60 years, but up to 1916 the results have not been of much commercial importance. T

    Jan 4, 1917

  • AIME
    Lead Mining In The Mississippi Valley

    The Mississippi river was discovered by French explorers that came southwestward, by way of the Great Lakes, from eastern Canada. Vignan, Joliet, De Champlain, and others of the French pioneers in the

    Jan 1, 1932

  • TMS
    Lead Product Development in the Next Millennium

    By R. D. Prengaman

    Lead usage in paint, anti-knock gasoline additives, pipes, seals, and solder has declined markedly over the past 30 years. Products utilizing the unique properties of lead and its ability to be recycl

    Jan 1, 2000

  • AUSIMM
    Lead Purification by Crystallization and Reflux

    By Walters GW

    A countercurrent method of metal refining using crystallization and reflux is discussed. 4n account is given of the development of this technique for the separation of silver and bismuth from lead

    Jan 1, 1975

  • CIM
    Lead Recovery from Waste CRT Glass by Hydrofluoric Acid and Electrochemical Treatments

    By T Nakamura, M. Itoh

    Most of the used cathode ray tube (CRT) glass in Japan, which contains lead oxide, was exported and recycled in overseas factories of new CRTs. However, domestic treatment and recycling of waste CRT g

    Jan 1, 2011

  • IMPC
    Lead Recycling from Automotive Batteries: an Hydrometallurgical Case Study

    By Ramon V. V de Araújo, Roberto B. E Trindade, Pablo R. Fica-Piras

    "Lead has been reported to affect blood vessels and kidneys. It also produces adverse effects in the mental and physical development of children and nervous system of adults. It is also considered as

    Jan 1, 2003

  • TMS
    Lead Recycling From Battery Scrap And Other Raw Materials In Metaleurop's Lead Smelting Plan In Oker

    By Gernot Schenker

    With the shut-down in the mid-1970s of the last shaft furnaces in the Harz Smelter Plant the long tradition of the Primary Lead Smelter in Oker came to an end. A continuation of the concern was nevert

    Jan 1, 1990

  • TMS
    Lead Recycling Process for Selective Recovery of Precious Metals From Argentopyrite Concentrates

    By J. R. Parga

    A shortage of landfill space and growing environmental concerns in Mexico are renewing interest in the recyclability of scrap from automobiles. This work describes a pyroumetallurgical process for the

    Jan 1, 1996

  • TMS
    Lead Recycling Utilising Short Rotary Furnaces

    By H. Forrest

    Lead smelting at Cookson Industrial Materials was formerly carried out using a combination of Blast and Reverberatory Furnaces. In the late 70' s these furnaces were replaced by two 20 tonne capa

    Jan 1, 1990

  • TMS
    Lead Recycling via Rotary Furances

    By Andrew B. Suttie

    The lead-acid battery recycling industry was seriously affected during the 1980s by increasing environmental protection costs and poor lead prices. The process is now being repeated in the 1990s causi

    Jan 1, 1995