Phase Transformation In Magnesium-Rich Nickel Oxide Ore After Reduction Roasting Process

The Minerals, Metals and Materials Society

Qian Li Yonggang Wei Bo Li Shiwei Zhou Hua Wang Baozhong Ma Chengyan Wang

Organization:: The Minerals, Metals and Materials Society
Pages:: 8
File Size:: 1812 KB
Publication Date:: Jan 1, 2015

Abstract

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The magnesium-rich nickel oxide ore (w (Ni) =1.09 %, w (MgO)=29.08 %) mixed with 6 % and 8 % anthracite were roasted at different temperatures. XRD and SEM/EDS techniques were utilized to characterize the phase and microstructure transformation of the ores. The results show that lizardite and chrysotile of raw ore were converted into forsterite and enstatite during reduction roasting process. Simultaneously, iron and nickel oxide were reduced and migrated from the initial magnesium silicate. Fe3Si were formed when the roasting temperature went up to 1300 ℃ and 1350 ℃, and a small amount of Ni was observed in it. Temperatures got too high were not benefit to the polymerization of ferronickel.

Citation

APA: Qian Li Yonggang Wei Bo Li Shiwei Zhou Hua Wang Baozhong Ma Chengyan Wang (2015) Phase Transformation In Magnesium-Rich Nickel Oxide Ore After Reduction Roasting Process

MLA: Qian Li Yonggang Wei Bo Li Shiwei Zhou Hua Wang Baozhong Ma Chengyan Wang Phase Transformation In Magnesium-Rich Nickel Oxide Ore After Reduction Roasting Process. The Minerals, Metals and Materials Society, 2015.

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