Mahanta, Chita R., Sahoo, Prabodha R., Mohanta, Manoj K., Rath, Rajendra K., Dey, Shobhana, Tripathy, Sunil Kumar, Prasad, Jitendra, Venkatesh, Akella S. (2023) Mineralogical Characteristics of Hematitic Iron Ore: A Geometallurgical Study on Ore from Eastern India. Minerals, 13 (9) doi:10.3390/min13091194
Reference Type | Journal (article/letter/editorial) | ||
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Title | Mineralogical Characteristics of Hematitic Iron Ore: A Geometallurgical Study on Ore from Eastern India | ||
Journal | Minerals | ||
Authors | Mahanta, Chita R. | Author | |
Sahoo, Prabodha R. | Author | ||
Mohanta, Manoj K. | Author | ||
Rath, Rajendra K. | Author | ||
Dey, Shobhana | Author | ||
Tripathy, Sunil Kumar | Author | ||
Prasad, Jitendra | Author | ||
Venkatesh, Akella S. | Author | ||
Year | 2023 | Volume | < 13 > |
Issue | < 9 > | ||
URL | |||
DOI | doi:10.3390/min13091194Search in ResearchGate | ||
Classification | Not set | LoC | Not set |
Mindat Ref. ID | 16897775 | Long-form Identifier | mindat:1:5:16897775:0 |
GUID | 36f15795-00b0-4a3c-ab73-0c5b24e3e023 | ||
Full Reference | Mahanta, Chita R., Sahoo, Prabodha R., Mohanta, Manoj K., Rath, Rajendra K., Dey, Shobhana, Tripathy, Sunil Kumar, Prasad, Jitendra, Venkatesh, Akella S. (2023) Mineralogical Characteristics of Hematitic Iron Ore: A Geometallurgical Study on Ore from Eastern India. Minerals, 13 (9) doi:10.3390/min13091194 | ||
Plain Text | Mahanta, Chita R., Sahoo, Prabodha R., Mohanta, Manoj K., Rath, Rajendra K., Dey, Shobhana, Tripathy, Sunil Kumar, Prasad, Jitendra, Venkatesh, Akella S. (2023) Mineralogical Characteristics of Hematitic Iron Ore: A Geometallurgical Study on Ore from Eastern India. Minerals, 13 (9) doi:10.3390/min13091194 | ||
In | Link this record to the correct parent record (if possible) | ||
Abstract/Notes | After being subjected to geometallurgical evaluation, the iron ores from Singhbhum Bonai-Keonjhar region, eastern India, have been designated as dense martite microplaty hematite high-strength ore (dM-mH-hs ore), massive dense martite microplaty hematite high-strength ore (mdM-mH-hs ore), schistose microplaty hematite low-strength ore (smH-ls ore), microplaty hematite powdery ore (mH-p ore), vitreous goethitic ore (vG ore), and ochreous goethitic ore (oG ore) end members, with varied strengths attributed to the microporosity levels. The first four variants form typical high-grade run-of-mines (ROMs) (hard, soft and powdery iron ore variants, e.g., ROM-HIO, ROM-SSIO, and ROM-PBD, respectively) with better amenability to beneficiation. In contrast, oG and vG ore end members form ROM lateritic iron ore (ROM-LIO) with poor amenability to beneficiation, having relatively higher concentrates of alumina (Â 3â6 wt%) due to the complex mineral chemistry of goethite and altered hematite. Banded hematite jasper (BHJ) is a very low-grade siliceous end member. In a mining operation, the ROMs may have the attributes of several combinations of the above-stated end members and ROM variants. The designated end members present in the ROMs determine their liberation, mineralogical processes, geometallurgical characteristics, amenability to beneficiation, product grade and recovery. |
References Listed
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Map of Localities
Locality Pages
Locality | Citation Details |
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Jajang mine, Narsinghpur District, Madhya Pradesh, India | |
Kashia mine, Narsinghpur District, Madhya Pradesh, India |
Mineral Occurrences
See Also
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