Effect of Grinding Media on the Preparation of Rougher Flake Graphite Concentrate

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Authors

  • Mechanical Operation Lab, School of Chemical Engineering, VIT (Vellore Institute of Technology) University, Vellore – 632014, Tamil Nadu, India. ,IN
  • Mechanical Operation Lab, School of Chemical Engineering, VIT (Vellore Institute of Technology) University, Vellore – 632014, Tamil Nadu, India. ,IN

DOI:

https://doi.org/10.18311/jmmf/2023/33753

Keywords:

Rod Mill, Grinding Media, Rods, Cylindrical Metallic Pebbles, Rougher Flotation.

Abstract

Protecting the coarse-flake graphite is one of the most important tasks during the grinding of graphite ore because coarse-flake graphite is more valuable than fine-flake graphite. The graphite ore sample contains 14.50% FC, 71.82% ash, and 13.68% volatile matter + moisture content. In the present study, the test work has been carried out on the graphite ore to maximize the recovery of rougher coarse flake graphite in a rod mill by varying the grinding media such as (i) rods, (ii) cylindrical metallic pebbles and (iii) combination of rods and cylindrical metallic pebbles in the weight ratio of 1:1, followed by rougher flotation. The effect of various flotation parameters such as a Mesh of Grind (MOG), pH, and dosages of Sodium silicate, Kerosene, and Methyl Isobutyl Carbinol (MIBC) on rougher flotation was carried out, and optimal parameters were also established. A comparative study of varying grinding media followed by rougher flotation at optimal parameters was carried out concerning the grade and recovery of coarse flaky graphite. The results indicated that the rod mill grinding with rods as a grinding media followed by rougher flotation of mill products produced a better grade (43.74% FC) and recovery (43.3%) of rougher coarse flaky graphite concentrate as compared to the other two grinding media.

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Published

2023-05-24

How to Cite

Koruprolu, V. B. R., & Nirmala, G. (2023). Effect of Grinding Media on the Preparation of Rougher Flake Graphite Concentrate. Journal of Mines, Metals and Fuels, 71(3), 422–429. https://doi.org/10.18311/jmmf/2023/33753

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