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Modern Mining ›› 2024, Vol. 40 ›› Issue (02): 167-169.

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Study on Influence of Iron Grade of a Vanadium-titanium Magnetite Ore
in Western Panzhihua on Iron Concentrate Quality

In order to improve the scientific development of different quality ore resources in Panzhi⁃
hua mining area, the relationship between raw ore iron grade and iron concentrate quality of on-site four rep⁃
resentative ore samples with different grade gradients was studied. The results show that: ①The iron grade of
the raw ore decreases, and the disseminated particle size of titanium magnetite and ilmenite becomes finer;
②The raw ore with higher Fe grade has higher TiO2 and V2O5 grade, higher harmful component S content,
lower P content. The content of other impurities CaO, MgO, Al2O3 and SiO2 shows a downward trend; ③The
raw ore with higher Fe grade has higher iron content and distribution rate in titanium magnetite, that is, the
grade of vanadium-titanium magnetite is higher and the theoretical recovery rate of iron concentrate is high⁃
er; ④For the raw ore with high Fe grade, the contents of titanium magnetite, ilmenite and sulfide ore are
high, and the content ratio of ilmenite to titanium magnetite decreases; ⑤The lower the Fe grade of the raw
ore is, the easier the ore is to grind; ⑥The raw ore with higher TFe grade has higher yield of iron concentrate,
higher TiO2 grade and S content of concentrate, which indicates that the quality of iron concentrate produced
by raw ore with lower grade is more conducive to subsequent smelting.
  

  1. 1. Pangang Group Mining Company Design Research Institute;
    2.Abstract State Key Laboratory of Comprehensive Utilization of Vanadium and Titanium Resources
  • Online:2024-02-18 Published:2024-08-14

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Abstract:

In order to improve the scientific development of different quality ore resources in Panzhi⁃
hua mining area, the relationship between raw ore iron grade and iron concentrate quality of on-site four rep⁃
resentative ore samples with different grade gradients was studied. The results show that: ①The iron grade of
the raw ore decreases, and the disseminated particle size of titanium magnetite and ilmenite becomes finer;
②The raw ore with higher Fe grade has higher TiO2 and V2O5 grade, higher harmful component S content,
lower P content. The content of other impurities CaO, MgO, Al2O3 and SiO2 shows a downward trend; ③The
raw ore with higher Fe grade has higher iron content and distribution rate in titanium magnetite, that is, the
grade of vanadium-titanium magnetite is higher and the theoretical recovery rate of iron concentrate is high⁃
er; ④For the raw ore with high Fe grade, the contents of titanium magnetite, ilmenite and sulfide ore are
high, and the content ratio of ilmenite to titanium magnetite decreases; ⑤The lower the Fe grade of the raw
ore is, the easier the ore is to grind; ⑥The raw ore with higher TFe grade has higher yield of iron concentrate,
higher TiO2 grade and S content of concentrate, which indicates that the quality of iron concentrate produced
by raw ore with lower grade is more conducive to subsequent smelting.