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

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Reference Type	Journal (article/letter/editorial)
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	https://www.mdpi.com/2075-163X/13/9/1194
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 ( 3–6 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
Jajang mine, Narsinghpur District, Madhya Pradesh, India
Kashia mine, Narsinghpur District, Madhya Pradesh, India

Mineral Occurrences

Locality	Mineral(s)
Jajang mine, Narsinghpur District, Madhya Pradesh, India	ⓘ Clay, ⓘ Goethite, ⓘ Hematite, ⓘ Jasper, ⓘ Kaolinite, ⓘ Magnetite, ⓘ Martite, ⓘ Quartz, ⓘ Red Ochre, ⓘ Schist
Kashia mine, Narsinghpur District, Madhya Pradesh, India	ⓘ Clay, ⓘ Goethite, ⓘ Hematite, ⓘ Jasper, ⓘ Kaolinite, ⓘ Magnetite, ⓘ Martite, ⓘ Quartz, ⓘ Red Ochre, ⓘ Schist

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	Prasad, Jitendra, Venkatesh, Akella, Sahoo, Prabodha, Singh, Sahendra, Sylvestre Kanouo, Nguo (2017) Geological Controls on High-Grade Iron Ores from Kiriburu-Meghahatuburu Iron Ore Deposit, Singhbhum-Orissa Craton, Eastern India. Minerals, 7 (10). 197pp. doi:10.3390/min7100197
	Prasad, Jitendra, Satya Venkatesh, Akella, Ranjan Sahoo, Prabodha (2022) A submarine hydrothermal origin of banded iron formations from Archean Kiriburu-Meghahatuburu iron ore deposit, Singhbhum Craton, eastern India. Ore Geology Reviews, 150. 105125 doi:10.1016/j.oregeorev.2022.105125
	Prasad, Jitendra, Akella Satya Venkatesh, Prabodha Ranjan Sahoo, Sahendra Singh, and Nguo Sylvestre Kanouo. (2017) "Geological Controls on High-Grade Iron Ores from Kiriburu-Meghahatuburu Iron Ore Deposit, Singhbhum-Orissa Craton, Eastern India" Minerals 7, no. 10: 197. https://doi.org/10.3390/min7100197
	Prasad, J., Venkatesh, A. S., & Sahoo, P. R. (2022). A submarine hydrothermal origin of banded iron formations from Archean Kiriburu-Meghahatuburu iron ore deposit, Singhbhum Craton, eastern India. Ore Geology Reviews, 105125.
	Sahoo, Saroj Kumar, Tripathy, Sunil Kumar, Nayak, A., Hembrom, K. C., Dey, S., Rath, R. K., Mohanta, M. K. (2024) Beneficiation of lithium bearing pegmatite rock: a review. Mineral Processing and Extractive Metallurgy Review, 45 (1) 1-27 doi:10.1080/08827508.2022.2117172
	Dey, Shobhana, Mohanta, Manoj Kumar, Goswami, Manik Chand, Pani, Santosh (2014) Recovery of Iron Values from Waste Manganiferous Iron Ore Fines for Pellet Making. Journal of Minerals and Materials Characterization and Engineering, 2 (5). 513-521 doi:10.4236/jmmce.2014.25052
	Sahoo, Janmejaya, Prabodha R. Sahoo, Israil Khan, and Akella S. Venkatesh. (2022) "Insights into the Metallogenesis of the Felsic Volcanic Hosted Mundiyawas-Khera Cu Deposit, Alwar Basin, Western India" Minerals 12, no. 3: 370. https://doi.org/10.3390/min12030370
	Upadhyay, Rajendra Kumar, Venkatesh, Akella Satya, Roy, Subrata (2010) Mineralogical Characteristics of Iron Ores in Joda and Khondbond Areas in Eastern India with Implications on Beneficiation. Resource Geology, 60 (2) 203-211 doi:10.1111/j.1751-3928.2010.00126.x
	Sahoo, Janmejaya, Sahoo, Prabodha Ranjan, Khan, Israil, Venkatesh, Akella Satya (2022) Insights into the Metallogenesis of the Felsic Volcanic Hosted Mundiyawas-Khera Cu Deposit, Alwar Basin, Western India. Minerals, 12 (3) 370 doi:10.3390/min12030370
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