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Innovative Transformation and Valorisation of Red Mill Scale Waste into Ferroalloys: Carbothermic Reduction in the Presence of Alumina

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dc.contributor.author Khanna, Rita
dc.contributor.author Konyukhov, Yuri
dc.contributor.author Li, Kejiang
dc.contributor.author Jayasankar, Kalidoss
dc.contributor.author Maslennikov, Nikita
dc.contributor.author Zinoveev, Dmitry
dc.contributor.author Kargin, Jumat
dc.contributor.author Burmistrov, Igor
dc.contributor.author Leybo, Denis
dc.contributor.author Kravchenko, Maksim
dc.contributor.author Mukherjee, Partha Sarathy
dc.date.accessioned 2024-10-16T09:51:14Z
dc.date.available 2024-10-16T09:51:14Z
dc.date.issued 2023
dc.identifier.citation Khanna, R.; Konyukhov, Y.; Li, K.; Jayasankar, K.; Maslennikov, N.; Zinoveev, D.; Kargin, J.; Burmistrov, I.; Leybo, D.; Kravchenko, M.; et al. Innovative Transformation and Valorisation of Red Mill Scale Waste into Ferroalloys: Carbothermic Reduction in the Presence of Alumina. Sustainability 2023, 15, 16810. https://doi.org/ 10.3390/su152416810 ru
dc.identifier.issn 2162-5689
dc.identifier.other doi.org/ 10.3390/su152416810
dc.identifier.uri http://rep.enu.kz/handle/enu/17791
dc.description.abstract Primary and secondary mill scales (MSs) are waste products produced by the surface oxidation of steel during the hot (800 to 1200 ◦C) rolling process in downstream steelmaking. While the primary MS is comprised of FeO, Fe3O4 , and Fe2O3 in a range of proportions, the secondary MS primarily contain red ferric oxide (Fe2O3 ) (red MS). We report a novel route for extracting iron from red MS and transforming it into ferro-aluminium alloys using carbothermic reduction in the presence of alumina. The red MS powder was blended with high-purity alumina (Al2O3 ) and synthetic graphite (C) in a range of proportions. The carbothermic reduction of red MS-Al2O3 -C blends was carried out at 1450 ◦C and 1550 ◦C under an argon atmosphere for 30 min and then furnace-cooled. The red MS was completely reduced to iron at these temperatures with reduced iron distributed around the matrix as small droplets. However, the addition of alumina unexpectedly resulted in a significant increase in the number and sizes of iron droplets generated, much higher reactivity, and the formation of ferrous alloys. A small amount of alumina reduction into metallic aluminium was also observed at 1450 ◦C. There is an urgent need to identify the true potential of industrial waste and the materials within it. This study showed that red MS is a valuable material source that could be transformed into ferro-aluminium alloys. These alloys find application in a range of industrial sectors such as construction, automotive, infrastructure, etc. ru
dc.language.iso en ru
dc.publisher Sustainability ru
dc.relation.ispartofseries 15;16810
dc.subject valorisation ru
dc.subject ferroalloys ru
dc.subject red mill scale waste ru
dc.subject carbothermic reduction ru
dc.subject construction ru
dc.subject nanomaterials ru
dc.title Innovative Transformation and Valorisation of Red Mill Scale Waste into Ferroalloys: Carbothermic Reduction in the Presence of Alumina ru
dc.type Article ru


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