Y. Sun, L. Wang, J. Xu, K.C. Chou

Estimating phosphate capacities of multi-component slags by mass triangle model

J. Min. Metall. Sect. B-Metall. 53 (1) B (2017) 31-36. DOI:10.2298/JMMB160329028S
Full text (pdf),

Export manuscript information:
RIS Format (EndNote, Reference Manager), BibTeX

Abstract

Considering the importance of dephosphorization process in ironmaking and steelmaking, this paper attempted to estimate the phosphate capacities of different systems. Mass triangle model could approach the properties of multi-component systems without the parameter for every component. This present work also extended the mass triangle model to multi-component systems application to three systems containing as much as seven components proved the feasibility and accuracy of this model. The calculated contour lines revealed the reasonable trend as experimental results, and calculation results for fixed compositions showed a low error rate. Scattered points calculation obtained more accurate results. Since this model can also evaluate other properties of slag, such as density, viscosity, sulphide capacity etc., this model might shoot light on the understanding of various properties of multi-component slags accurately, and thus offer insight on optimization of ironmaking and steelmaking process.
Keywords: Phosphate capacities; Mass triangle model; Multi-component system

Correspondence Address:
L. Wang, University of Science and Technology Beijing,
Collabrative Innovation Center of Steel Technology, Beijing, China
lijunwang@ustb.edu.cn

Creative Commons License
This work is licensed under a
Creative Commons Attribution-
ShareAlike 4.0 International License