REMELTING OF SCRAP CONTAINING TUNGSTEN AND NICKEL IN THE ELECTRIC-ARC FURNACE

被引:0
|
作者
OSTROVSKI, O [1 ]
机构
[1] MOSCOW STEEL & ALLOYS INST,DEPT ELECTROMET STEEL & FERROALLOYS,MOSCOW,RUSSIA
来源
STEEL RESEARCH | 1994年 / 65卷 / 10期
关键词
D O I
10.1002/srin.199401188
中图分类号
TF [冶金工业];
学科分类号
0806 ;
摘要
Remelting of the metallic scrap containing tungsten and nickel and thermodynamic properties of slag containing tungsten oxide are discussed. Tungsten and nickel in the metallic scrap have to be separated before the scrap may be used for melting of some steels (for example, high speed steel). To separate tungsten and nickel, such scrap (waste drills) was remelted in the 25 t electric arc furnace under oxidizing conditions. Tungsten was oxidised and transferred to the slag phase, while nickel remained in the metal. Further, the slag containing tungsten oxide was used in the melting of high speed steel. Metal containing nickel was utilized in the constructional steel production. Technology of the scrap remelting was developed on the basis of thermodynamic analysis of slag containing tungsten oxide and tungsten slag-metal partition. It was found that the coefficient of tungsten distribution between iron and basic CaO-SiO2-Fe(t)O-WO3 slag increases with increasing slag basicity. In the industrial oxidising heats a slag of high basicity was used, it secured 94% tungsten extraction from scrap to the slag.
引用
收藏
页码:429 / 432
页数:4
相关论文
共 50 条
  • [31] Power Increase of Steelmaking Electric-Arc Furnace
    G. P. Kornilov
    A. A. Nikolaev
    V. V. Anokhin
    [J]. Metallurgist, 2016, 60 : 780 - 785
  • [32] REDUCTION OF CONVERTER SLAG IN ELECTRIC-ARC FURNACE
    DZIARMAGOWSKI, M
    KARBOWNICZEK, M
    PYZALSKI, M
    OKON, J
    [J]. IRONMAKING & STEELMAKING, 1992, 19 (01) : 45 - 49
  • [33] MINERALOGICAL CHARACTERISTICS OF ELECTRIC-ARC FURNACE DUSTS
    HAGNI, AM
    HAGNI, RD
    DEMARS, C
    [J]. JOM-JOURNAL OF THE MINERALS METALS & MATERIALS SOCIETY, 1991, 43 (04): : 28 - 30
  • [34] An advanced power controller in an electric-Arc furnace
    Maslov D.V.
    Rubtsov V.P.
    [J]. Russian Electrical Engineering, 2014, 85 (7) : 469 - 474
  • [35] ELECTRIC-ARC STEELMAKING FURNACE ELECTRIC PARAMETERS AND STATES ANALYSIS
    IGNATOV, II
    KHANISOV, AV
    [J]. ELECTRICAL TECHNOLOGY, 1983, (03): : 50 - 59
  • [36] SAFETY IN DUST CLEANING EQUIPMENTS FOR ELECTRIC-ARC FURNACE
    ANTOINE, J
    [J]. REVUE DE METALLURGIE-CAHIERS D INFORMATIONS TECHNIQUES, 1982, 79 (05): : 389 - 396
  • [37] CHARACTERIZATION OF DIRECTLY SAMPLED ELECTRIC-ARC FURNACE DUST
    PORTER, JR
    GOLDSTEIN, JI
    KIM, YW
    [J]. AIP CONFERENCE PROCEEDINGS, 1982, (84) : 377 - 393
  • [38] ELECTRIC-ARC IGNITES COAL IN COLD UTILITY FURNACE
    不详
    [J]. ELECTRICAL WORLD, 1983, 197 (09): : 104 - 104
  • [39] HOW TO OPTIMIZE THE USE OF COAL IN THE ELECTRIC-ARC FURNACE
    DESTANNES, P
    GROSJEAN, JC
    MAURER, G
    REBOUL, JP
    [J]. REVUE DE METALLURGIE-CAHIERS D INFORMATIONS TECHNIQUES, 1990, 87 (04): : 341 - 349
  • [40] REDUCTION OF CHROMIUM-ORE IN ELECTRIC-ARC FURNACE
    WATANABE, A
    [J]. TETSU TO HAGANE-JOURNAL OF THE IRON AND STEEL INSTITUTE OF JAPAN, 1987, 73 (04): : S270 - S270
12345