Effect of Alumina and Magnesia on Microstructure and Mineralogy of Iron Ore Sinter
- Organization:
- The Minerals, Metals and Materials Society
- Pages:
- 9
- File Size:
- 888 KB
- Publication Date:
- Mar 1, 2017
Abstract
The evolution of microstructure and mineral phases in iron ore sinters have been investigated by scanning electron microscope and QEMSCAN (Quantitative Evaluation of Minerals by Scanning Electron Microscopy). It was found that MgO, basicity and Al2O3 content play an important role in the formation of mineral phases and microstructure in sinter. The low Al2O3 (<2.0 wt%), medium MgO (2.0–2.5 wt%) and high basicity (>3.0) sinter showed higher low temperature degradation index (LTD) due to the presence of silico ferrites of calcium and aluminium (SFCA), and magnetite phase, and lower pore phase as compared to low basicity iron ore sinter.
Citation
APA: (2017) Effect of Alumina and Magnesia on Microstructure and Mineralogy of Iron Ore Sinter
MLA: Effect of Alumina and Magnesia on Microstructure and Mineralogy of Iron Ore Sinter. The Minerals, Metals and Materials Society, 2017.