The Effect of Temperature, Oxygen Potential and Slag Chemistry on the Stability of Chromium Spinels in Melter Slags in the Base Metals Industry
- Organization:
- International Mineral Processing Congress
- Pages:
- 6
- File Size:
- 232 KB
- Publication Date:
- Jan 1, 2003
Abstract
The gradual increase in Cr2O3 levels of UG-2 ores has become a matter of concern for platinum producers in South Africa due to the formation of chromite spinels in melters. The effect of bulk FeOx/MgO ratio, Cr2O3, temperature and oxygen partial pressure on phase stability and composition in the system FeOx-MgOSiO2- Cr2O3-Al2O3-CaO has been studied between 1400°C and 1600°C using the drop-quench technique. An increase in temperature was found to result in a decrease in [Fe/Cr]spinel. An increase in bulk FeOx/MgO caused Mg, Al and Cr in spinel to decrease, forming more magnetite relative to other spinels. [Fe]spinel decreased and [Cr]glass increased with a decrease in oxygen partial pressure.
Citation
APA: (2003) The Effect of Temperature, Oxygen Potential and Slag Chemistry on the Stability of Chromium Spinels in Melter Slags in the Base Metals Industry
MLA: The Effect of Temperature, Oxygen Potential and Slag Chemistry on the Stability of Chromium Spinels in Melter Slags in the Base Metals Industry . International Mineral Processing Congress, 2003.