Mn鉱石の高温還元および溶融挙動の基礎調査

抄録

Several studies have examined the reduction behavior of manganese ore at high temperature with the aim of reducing the manganese cost in the steelmaking process. However, the transformation behavior of manganese compounds at high temperatures had not yet been clarified. Therefore, in this paper, the effects of temperature and oxygen partial pressure, as well as chemical composition, on the transformation and melting behavior of manganese ore were investigated using high-temperature X-ray diffraction (XRD) and thermogravimetry-differential thermal analysis (TG-DTA) in order to obtain fundamental information on the pre-reduction process of manganese ore. The main manganese compound in the raw manganese ore used in this study was characterized as CaMn₆SiO₁₂ by XRD at room temperature, while the main manganese compounds in the sintered manganese ore were Mn₃O₄ and MnO. Under a vacuum condition, raw manganese ore and sintered manganese ore were reduced to MnO above 1473 K. However, under atmospheric conditions (pressure: 760 Torr), manganese ore was reduced to Mn₃O₄ rather than MnO at temperatures above 1073 K. The results of high-temperature XRD agreed with thermodynamic calculations. The melting point of the raw manganese ore evaluated by TG-DTA was lower than that of the sintered manganese ore due to the difference in the manganese oxide in each ore rather than the difference in the content of gangue components such as Al₂O₃, CaO, MgO and Fe₂O₃. The higher melting temperature of the sintered manganese ore is interpreted in terms of a higher content of MnO due to heat treatment.