Investigation on Stabilization of Ladle Furnace Slag with Different Additives

Ladle furnace slag disintegrates into fine powder during cooling due to phase transformations of di-calcium silicate. This creates an adverse impact on working conditions and the environment by dust generation. In this paper, a short overview on different studies to overcome the disintegration probl...

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Bibliographic Details
Published in:Journal of sustainable metallurgy 2020-03, Vol.6 (1), p.121-131
Main Authors: Gollapalli, Veerababu, Tadivaka, Srinivasa Rao, Borra, Chenna Rao, Varanasi, Suguna Soumya, Karamched, Phani S., Venkata Rao, M. B.
Format: Article
Language:English
Subjects:
Additives
Aluminum
Calcium silicates
Disintegration
Earth and Environmental Science
Environment
Fly ash
Ladles
Mathematical analysis
Metallic Materials
Organic chemistry
Phase equilibria
Phase transitions
Research Article
Slag
Sustainable Development
X ray fluorescence analysis
X ray powder diffraction
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Summary:Ladle furnace slag disintegrates into fine powder during cooling due to phase transformations of di-calcium silicate. This creates an adverse impact on working conditions and the environment by dust generation. In this paper, a short overview on different studies to overcome the disintegration problem is provided. An attempt was also made to study the effects of several different additives and their mixtures on disintegration of slag. Phase equilibria calculations were carried out for some additives using FactSage ® to understand the phase changes in the slag. Based on the phase equilibria calculations and literature data, initial laboratory experiments were conducted at 1650 °C with different additives such as boric acid, aluminium, and fly ash. Slag samples were analyzed with X-ray fluorescence and X-ray powder diffraction for chemical and phase analysis before and after treatment. The disintegration of slag can be prevented either by addition of 0.5 wt% or more of boric acid or 9 wt% of aluminium or 6 wt% of fly ash or 4–8 wt% fly ash along with 0.125–0.25 wt% of boric acid in slag. Based on the optimized conditions, industrial trials were conducted.
ISSN:2199-3823
2199-3831
DOI:10.1007/s40831-020-00263-w