Review on the Viscosity of Iron-based Melts in Metallurgical Process

Abstract: Low-carbon metallurgy is a critical issue for the world in the 21st century and improving production efficiency is one of the main ways to resolve this problem. Ironbased alloy runs through the whole process of metallurgy, and the viscosity properties of melt is of great significance on the process of reaction, transportation and solidification casting, which is one of the constraints on production efficiency. The research progress of the viscosity of iron-based melt is summarized from the aspects of measureme… Show more

“…The extreme increase in temperature can additionally cause the dissociation of molecules and ionisation, and leads to the transformation of matter to a plasma state, with possible intermediate condensed phases such as the condensed Rydberg matter, the rheological behaviour of which is unknown [59][60][61][62], although these can be of practical use to validate the TB approach to viscosity and its modification, applying the above concept of effective masses. Finally, we note that the Eyring-Kaptay (EK) equation used here to find the temperature T vm was extended from the temperature range, where its correctness was confirmed by the experiment [6,63], to the range where its validity may be questionable; therefore, Equation ( 3) is an approximate assessment of the crossover temperature T vm . Accounting for the fact that the DDO model of viscosity gives a twice-smaller value of T vm = E a /R [10,11], we can admit that in the experiment, the viscosity minima could be expected to be within the interval from E a /R to 2E a /R, in any case being directly proportional to the activation energy of fluid flow at high temperatures.…”

The Minima of Viscosities

“…The extreme increase in temperature can additionally cause the dissociation of molecules and ionisation, and leads to the transformation of matter to a plasma state, with possible intermediate condensed phases such as the condensed Rydberg matter, the rheological behaviour of which is unknown [59][60][61][62], although these can be of practical use to validate the TB approach to viscosity and its modification, applying the above concept of effective masses. Finally, we note that the Eyring-Kaptay (EK) equation used here to find the temperature T vm was extended from the temperature range, where its correctness was confirmed by the experiment [6,63], to the range where its validity may be questionable; therefore, Equation ( 3) is an approximate assessment of the crossover temperature T vm . Accounting for the fact that the DDO model of viscosity gives a twice-smaller value of T vm = E a /R [10,11], we can admit that in the experiment, the viscosity minima could be expected to be within the interval from E a /R to 2E a /R, in any case being directly proportional to the activation energy of fluid flow at high temperatures.…”

The Minima of Viscosities

“…Specifically, Chapman determined it to be approximately 6.5 mPa·s [ 18 ], Battezzati 5.5 mPa·s [ 19 ] and Brooks 6.93 mPa·s [ 16 ]. However, even in the case of binary and ternary systems, the viscosity of iron-based alloys can vary by units of mPa·s, with the addition of alloying elements in the order of tenths to units of percent [ 20 , 21 ]. Furthermore, it is worth noting that the effect of the same dissolving element on viscosity may differ for binary and multicomponent melts, and it can be assumed that specific interactions between the components change the patterns of their effect on viscosity [ 22 ].…”

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