Investigation of Phase Composition of Sulfide Copper-Nickel Ore Heating Products.

被引:0
|
作者
Ertseva, L.N.
Lukashevich, O.N.
Starykh, V.B.
Tsemekhman, L.Sh.
机构
来源
Izvestia Akademii nauk SSSR. Metally | 1983年 / 02期
关键词
PYRITES; -; PYROMETALLURGY;
D O I
暂无
中图分类号
学科分类号
摘要
Specimens of chalcopyrite and pyrrhotine ore were heated to melting in an inert gas atmosphere and were held for different periods at set temperatures (550, 600, 700, 800, 900, 1000 and 1100). When chalcopyrite and pentlandite are both present in a specimen, mutual diffusion of elements begins from t equals 600 C. Full homogenization does not occur below t equals 1000 C. From t equals 800 C some separation of the nickel phase from the copper phase is noted. At t greater than 700C, chalcopyrite dissolves in pyrrhotine. At t greater than 600 C pentlandite is substituted by monosulfide solid solution losing a considerable amount of nickel due to dissolution in pyrrhotine.
引用
收藏
页码:3 / 11
相关论文
共 50 条
  • [41] COMPOSITION VARIATIONS IN COPPER-NICKEL BUTT WELDS
    LEE, RN
    NORR, MK
    JACOBUS, OJ
    LITTLE, BJ
    RAY, RI
    WAGNER, PA
    [J]. CORROSION, 1991, 47 (08) : 645 - 652
  • [42] SULFIDE LEAD-ISOTOPE COMPOSITION AS INDICATOR OF MULTISTAGE FORMATION OF COPPER-NICKEL DEPOSITS OF PECHENGA
    ABZALOV, MZ
    GOROKHOVSKII, BM
    TURCHENKO, SI
    [J]. DOKLADY AKADEMII NAUK SSSR, 1991, 320 (05): : 1230 - 1234
  • [43] The Influence of the Microstructure and Phase Composition on Technological Embrittlement of Heatproof Copper-Nickel Alloy
    A. M. Polyanskii
    V. M. Polyanskii
    [J]. Inorganic Materials: Applied Research, 2021, 12 : 76 - 82
  • [44] The effect of crystallochemical peculiarities of nickel sulphide minerals on flotation of copper-nickel ore
    Chanturiya, V
    Makarov, V
    Forsling, W
    Makarov, D
    Vasil'eva, T
    Trofimenko, T
    Kuznetsov, V
    [J]. INTERNATIONAL JOURNAL OF MINERAL PROCESSING, 2004, 74 (1-4) : 289 - 301
  • [45] The Influence of the Microstructure and Phase Composition on Technological Embrittlement of Heatproof Copper-Nickel Alloy
    Polyanskii, A. M.
    Polyanskii, V. M.
    [J]. INORGANIC MATERIALS-APPLIED RESEARCH, 2021, 12 (01) : 76 - 82
  • [46] The Use of Tecflote Family Collectors in Copper-Nickel Ore Flotation
    Chernousenko, E., V
    Kameneva, Yu S.
    [J]. JOURNAL OF MINING SCIENCE, 2021, 57 (06) : 1014 - 1024
  • [47] Radiometric Separation in Grinding Circuit of Copper-Nickel Ore Processing
    Burdakova, E. A.
    Bragin, V. I.
    Usmanova, N. F.
    Vashlaev, A. O.
    Lesnikova, L. S.
    D'yachenko, L. E.
    Fertikov, A. I.
    [J]. JOURNAL OF MINING SCIENCE, 2019, 55 (05) : 824 - 831
  • [48] Improvement of Copper-Nickel Ore Concentration under Energy Deposition
    Rostovtsev, V. I.
    Kondrat'ev, S. A.
    Baksheeva, I. I.
    [J]. JOURNAL OF MINING SCIENCE, 2017, 53 (05) : 907 - 914
  • [49] Fluorinated xanthates as collecting agents in copper-nickel ore flotation
    Kondrat'ev, S. A.
    Rostovtsev, V. I.
    Fomenko, V. V.
    Kargapolov, Yu. S.
    [J]. JOURNAL OF MINING SCIENCE, 2010, 46 (05) : 569 - 574
  • [50] Upgrading of talc-bearing copper-nickel sulfide ore by froth flotation using sodium phytate as depressant
    Xie, Jie
    Zhao, Kaile
    Sun, Lei
    Li, Yang
    Hu, Chunmei
    Wang, Zhen
    Gao, Zhiyong
    [J]. COLLOIDS AND SURFACES A-PHYSICOCHEMICAL AND ENGINEERING ASPECTS, 2024, 687
12345