Y. Rajshekar scite author profile

Y. Rajshekar

3Publications

19Citation Statements Received

62Citation Statements Given

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Affiliations

National Metallurgical Laboratory, Tata Steel (India), Academy of Scientific and Innovative Research

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Mill scale as a potential additive to improve the quality of hematite ore pellet

Rajshekar

Pal

Venugopalan

2017

Mineral Processing and Extractive Metallurgy Review

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Hematite pellet is required to be indurated at very high temperature to achieve its good strength as there is no exothermic heat of oxidation unlike magnetite. As mill scale contains mainly FeO and Fe 3 O 4 , any minor amount of its addition in pellet can provide in situ heat and enhance diffusion bonding and sintering. In this study, the mill scale generated in steel plant is added as magnetite input in hematite pellet both in acidic and in basic condition. It has been found that in fluxed pellet, mill scale can improve the properties of pellet. In acidic pellet, the induration temperature has been reduced to a great extent (1250-1275°C) and all properties have been found to be improved due to the addition of 15% mill scale. Mill scale shows enough potential to eliminate the flux addition in producing blast furnace quality pellet from hematite ore. Thus, the flux free acidic pellet has been developed even at very low temperature (1275°C) of induration.

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Sintering characteristics and kinetics of acidic haematite ore pellets with and without mill scale addition

Rajshekar

Pal

Venugopalan

2016

Ironmaking & Steelmaking

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Haematite ore pellets require very high induration temperature (>1573 K) while, magnetite ore pellets require much lower temperature due to the oxidation of magnetite during induration. Mixing of some magnetite in haematite ore can improve the sintering property of pellets during induration. Mill scale is a waste material of steel plant which contains mainly FeO and Fe 3 O 4. It can also be blended in haematite ore pellet mix which can enhance diffusion bonding and recrystallisation bonding and facilitate sintering at the lower temperature like magnetite ore. The extent of improvement in sintering property, sintering mechanism and its kinetics in the presence of mill scale is very imperative to study. In current study, the sintering characteristics of acidic iron ore pellet with 15% mill scale and without mill scale has been studied separately through microstructure observation, apparent porosity measurement and volume change. The volume changes due to heating at varying temperature and time has been measured by mercury displacement method and the data has been exploited for sintering kinetics study, wherein, extent of sintering α has a power relation with time. Several kinetics parameters such as time exponent (n), rate constant (k) and activation energies have been estimated for above two pellets and compared. While acidic pellet without mill scale requires 385 k cal mol −1 , acidic pellet with 15% mill scale requires only 310 k cal mol −1 activation energy.

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Iron ore slime as an alternate coolant in steelmaking: Performance evaluation at commercial scale

Rajshekar

Alex

Sahoo

et al. 2016

Journal of Cleaner Production

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Y. Rajshekar

Mill scale as a potential additive to improve the quality of hematite ore pellet

Sintering characteristics and kinetics of acidic haematite ore pellets with and without mill scale addition

Iron ore slime as an alternate coolant in steelmaking: Performance evaluation at commercial scale

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