Mathematical Model of Roller-Bearing Electric Steel Chemical Composition Control on the Ladle-Furnace Full text
A. I. Panchenko1, A. S. Sal`nikov1, L. M. Skripka1, A. V. Zhadanos2, M. I. Gasik2
1JSC “Dneprospetsstal”
81Yuzhnoe Shosse, Zaporizhzhya, 69008, Ukraine
2National Metallurgical Academy of Ukraine
4 Gagarin Ave., Dnipropetrovsk, 49600, Ukraine
UDC 661.68:669.046.001.57
Metall. Min. Ind., 2010, Vol. 2, No. 6, pp. 390-396
Abstract
Regression models of chromium, silicon, manganese and carbon content behavior in metal depending on the amount of added carbonaceous materials, ferrosilicomanganese MnS17, ferromanganese FeMn78, ferrosilicon FeSi65, ferrochromium FeCr800 are obtained as a result of analysis of experimental data for bearing electric steel ШХ15 and ШХ15СГ-В. These models enable to forecast chemical composition of steel in order to save reducing agents and alloying elements. The structural diagram of automated information system of ladle-furnace is designed according to results of investigations.
Keywords: LADLE-FURNACE, BEARING ELECTRIC STEEL, FORECASTING OF CHEMICAL COMPOSITION, REGRESSION MODEL, CARBONACEOUS MATERIALS, FERROCHROMIUM, FERROSILICOMANGANESE, FERROMANGANESE, FERROSILICON, ADEQUACY OF MODEL, AUTOMATED INFORMATION SYSTEM (AIS)