Study on Process Mineralogy and Titanium Separation of Ti-Bearing EAF Slag

Jun Hui Zhang; Cheng Xiu Li; Ling Xi   Zeng

doi:10.4028/www.scientific.net/AMR.734-737.1097

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 734-737Study on Process Mineralogy and Titanium...

Study on Process Mineralogy and Titanium Separation of Ti-Bearing EAF Slag

Abstract:

Panzhihua Steel Plant adopts a new process - "rotary hearth furnace (RHF) direct reduction - electric arc furnace (EAF) deep reduction" - to manufacture iron, and the resultant Ti-bearing slag contains 44.03% titanium dioxide and has higher contents of impurities such as calcium, magnesium and silicon, so it cannot be prepared titanium dioxide alone. In order to effectively utilize the slag, process mineralogical research and a large number of mineral processing tests have been conducted so as to ascertain the separability of Ti-bearing slag. The results show that flotation technology is an effective way to dispose the slag, comparing with other beneficiation methods. Finally, titanium concentrate indexes, TiO₂ grade of 66.49% and recovery of 71.91%, were obtained by using open circuit flow of "2-roughing and 4-concentrate".

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Periodical:

Advanced Materials Research (Volumes 734-737)

Pages:

1097-1103

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.734-737.1097

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Online since:

August 2013

Authors:

Jun Hui Zhang, Cheng Xiu Li, Ling Xi Zeng

Keywords:

Anosovite, Collector, Flotation, Ti-Bearing EAF Slag, Vanadic Titanomagnetite

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References

[1] Niu Yahui, Du Xinghong, Yang Wanhu, Sui Zhitong, Flotation of the modified high titanium BF slag , Journal of Materials and Metallurgy, Vol.11(2011), p.13

Google Scholar

[2] Sui Zhitong, Guo Zhenzhong, Zhang Li, Zhang Linnan, Wang Mingyu, Lou Taiping, Li Guangqiang, Green separation technique of Ti component from Ti-bearing blast furnace slag , Journal of Materials and Metallurgy, Vol. 5(2006), p.93

DOI: 10.2355/isijinternational.46.458

Google Scholar

[3] Guo Peimin, Zhao Pei, Technical Analysis on Selective Separation and Enrichment of Ti- bearing Blast Furance Slag Based on Phase Diagrams, Iron Steel Vanadium Titanium, Vol.26(2005), p.5

Google Scholar

[4] W-K LU, Technology of Low Coal Rate and High Productivity of RHF Ironmaking,DOE of USA, Vol.9( 2002), p.21

DOI: 10.2172/807636

Google Scholar

[5] Wang Taiyan, Technology Selection for Direct Reduction Iron Production, Angang Technology, Vol.3(2002), p.4

Google Scholar

[6] Liu Gongguo, Study on applied technology of vanadium titanium magnetite based on rotary hearth furnace direct reduction process, Research on Iron and Steel, Vol.2( 2012), pp.4-7

DOI: 10.4028/www.scientific.net/amm.217-219.441

Google Scholar

[7] Wu Qiuting, Engineering Study on RHF Direct Reduction of Vanadium-Bearing Titanomagnetite , Iron & Steel, Vol.11(2010), p.22

Google Scholar