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  • TMS
    Recycling of oxidic waste from ferroalloy production

    By M. Hochenhofer

    Due to economic aspects and environmental regulations recycling of slag and waste from ferroalloy production became a very important issue for the companies during the last years. The treatment of sla

    Jan 1, 2006

  • TMS
    Recycling Of Platinum From Spent Catalysts

    By Dieter Offenthaler

    Catalysts used in petroleum industry often contain valuable amounts of PGMs. The typical recycling route for those materials is the pyrometallurgical one, but this treatment way offers limited flexibi

    Jan 1, 2006

  • SAIMM
    Recycling Of Platinum Group Metals From Automotive Catalysts By An Acidic Leaching Process

    By R. Rumpold

    The platinum group metals (PGMs) palladium, platinum, and rhodium represent the key materials for automotive exhaust gas treatment. Since there are currently no adequate alternatives, the importance o

    Jan 1, 2012

  • CIM
    Recycling of Printed Circuit Boards (PCB): Extraction of Metallic and Nonmetallic Fractions by a Combination of Physical and Chemical Processes

    By S. S. Al-Thyabat, A. M. Ghrair

    "Printed circuit board (PCB) is the main part of any electric or electronic device, providing mechanical support and electric connection for the board eclectic components such as capacitors, resistors

    Jan 1, 2016

  • TMS
    Recycling of Printed Circuit Boards by Melting with Oxidising/Reducing Top Blowing Process

    By Andrea Bernardes

    Printed circuit boards (PCBs) of varying compositions have been converted by incineration and following melting into an environmental agreeable slag and a copper-nickel-tin alloy, containing the preci

    Jan 1, 1997

  • AUSIMM
    Recycling of Process Water in Sulfides Processing and Flotation Selectivity

    Recycling of Process Water in Sulfides Processing and Flotation Selectivity

    Sep 13, 2010

  • CIM
    Recycling of Rare Earth Magnet using Molten Fluoride

    By H. Zhu, Y. Sato, O. Takeda, K. Nakano

    Recycling of rare earth magnet wastes is essential to insure the stable supply of rare earth resources. For the development of a novel recycling process, the removal of rare earth oxide from an off-sp

    Jan 1, 2014

  • TMS
    Recycling of Reverted IN738LC with References to Mechanical Properties and Control Of Chemical Composition

    By Reza Rahimi, M. Nili Ahmadabadi

    "Because of high cost and shortage of primary resources of Ni-base superalloys, revert alloys can be used as a part of charging materials for production of superalloys ingots. The current study is bas

    Jan 1, 2012

  • IMPC
    Recycling of Seyitomer Power Plant Bottom Ashes

    By S. Koca

    Vast amount of fly ash, bottom ash and slags, are produced each year due to coal combustion in thermal power plants. These products consist of mainly unburned carbon and inorganic compound (such as: s

    Jan 1, 2014

  • AUSIMM
    Recycling of Sludge from the Production of Manganese

    Recycling of Sludge from the Production of Manganese

    Sep 13, 2010

  • CIM
    Recycling of Sm and Co from Magnetic Scraps

    By I. P. Barbosa, P. S. M. Soares, I. O. C. Masson

    "Permanent magnets have been applied extensively to several electronic products such as printers, TV sets, microphones, microcomputers and headphones, presently manufactured in large scale by industri

    Jan 1, 1997

  • SME
    Recycling of SmCo magnets by removal of iron via oxidative leaching

    By Elif Emil-Kaya, Bernd Friedrich, Merve Papakci

    Samarium (Sm), one of the rare earth elements (REEs), and cobalt (Co) are used in the production of SmCo permanent magnets, which have excellent temperature stability, corrosion resistance and oxidati

    Jul 1, 2024

  • SME
    Recycling of SmCo Magnets by Removal of Iron via Oxidative Leaching - Mining, Metallurgy & Exploration (2024)

    By Bernd Friedrich, Elif Emil‑Kaya, Merve Papakci

    In the production of SmCo permanent magnets with excellent temperature stability, corrosion resistance, and oxidation resistance, samarium (Sm), one of the rare earth elements (REEs), and cobalt (Co)

    Feb 15, 2024

  • TMS
    Recycling of Solid Wastes Containing Iron from Integrated Steelmaking Plant

    By C. Takano

    The integrated iron and steelmaking industry generates large amounts and many types of solid dusts and sludge, at different phases of the production. Within these are: sludge of the Blast Furnace; cok

    Jan 1, 2001

  • CIM
    Recycling of Spent Acids and Iron via Pyrohydrolysis

    By F. Baerhold

    Recycling of hydrochloric acid from the pickling of mild steel using pyrohydrolysis is a state-of-the-art technology. Recent developments have focused on the production of a high value iron oxide by-p

    Jan 1, 2006

  • SME
    Recycling Of Spent Alkaline And Zinc-Carbon Batteries For Zinc And Manganese Secondary Production

    By F. Ferella

    In this paper several leaching tests were per-formed to optimize the leaching section of a hydrometallurgical process for the recycling of alkaline and zinc-carbon batteries. Zinc and manganese oxides

    Jan 1, 2006

  • CIM
    Recycling of Spent Auto-Catalyst Using Akaline Roasting Followed by Sulfuric Acid Dissolution

    By S. k. Kim, H. B. Trinh, R. R. Srivastava

    "Spent auto-catalyst is a promising secondary resource of platinum group metals (PGMs), which are being extensively used in automobiles catalytic converters to control the hazardous gaseous emissions

    Jan 1, 2017

  • IOM3
    Recycling of spent Denox catalysts

    By M. Foguenne, A. van Lierde, P. Henry

    Leaching experiments were carried out on a spent catalyst sample with a honeycomb structure, containing 47.5% Ti, 5.8% Mo, 2.7% Si, 2 035 ppm As, 52 ppm Pb and 8.8 ppm Hg. More than 93% of the Mo and

    Jun 19, 1905

  • TMS
    Recycling Of Spent Li/MnO2 Batteries

    By Jitka Jandová

    A laboratory process based on simple and environmental friendly operation, aimed at recycling of spent Li/MnO2 batteries, is described in this study. This process involves roasting Li/MnO2 batteries

    Jan 1, 2006

  • TMS
    Recycling Of Spent Ni-Cd Batteries By Physical-Chemical Processing

    By Carlos A. Nogueira

    Spent Ni-Cd batteries contain in the electrode materials heavy metals like Ni, Cd and Co, which must be recycled due to environmental problems. Pyrometallurgy is normally used for recycling these end-

    Jan 1, 2006