Modeling Of EAF Slag Chemistry For Optimal Slag Foaming And Refractory Service Life (718bfb84-5917-4efe-97f2-7e3a4a3de57a)
- Organization:
- The Minerals, Metals and Materials Society
- Pages:
- 14
- File Size:
- 495 KB
- Publication Date:
- Jan 1, 2003
Abstract
EAF slag chemistry and its control have been recognized as important in producing quality steel at a low price for a number of decades_ EAF steel producers make lime and dolomite additions to furnaces, controlling the CIS ratios and sulfur pickup from the steel. Existing phase diagram data at 1600°C for CaO, MgO, FeO, SiO2, and Al2O3 was used to write a computer model optimizing slag chemistry for slag foaming and reduced refractory wear. The model, its development, and its use in an industrial steelmaking environment will be discussed along with how the model can improve energy efficiency. The importance of EAF mass balance to account for critical materials like Si in scrap and refractory wear using the model will also be emphasized_
Citation
APA: (2003) Modeling Of EAF Slag Chemistry For Optimal Slag Foaming And Refractory Service Life (718bfb84-5917-4efe-97f2-7e3a4a3de57a)
MLA: Modeling Of EAF Slag Chemistry For Optimal Slag Foaming And Refractory Service Life (718bfb84-5917-4efe-97f2-7e3a4a3de57a). The Minerals, Metals and Materials Society, 2003.