Theoretical Model of Steel Continuous Casting Technology
C Gheorghies1,I Crudu2,C Teletin2,C Spanu2
1. Faculty of Science, Dunarea de Jos, University of Galati, RO800008, Romania;2. Faculty of Mechanical Engineering, Dunarea de Jos, University of Galati, RO800008, Romania
Theoretical Model of Steel Continuous Casting Technology
C Gheorghies1,I Crudu2,C Teletin2,C Spanu2
1. Faculty of Science, Dunarea de Jos, University of Galati, RO800008, Romania;2. Faculty of Mechanical Engineering, Dunarea de Jos, University of Galati, RO800008, Romania
ժҪ A theoretical model adapted for studying steel continuous casting technology was proposed. The model based on system theory contained input/output, command, and control parameters. The process was divided into five stages, i��e��, tundish, mold, guiding system, guiding��drawing system, and guiding��drawing��soft reduction system. The model can be used to describe the physicochemical processes, thermal processes, chemical processes, and characteristics of the cast material according to the above��mentioned stages. It can also be applied to other metallurgical technologies and even to other industries (chemistry, food, etc��).
Abstract��A theoretical model adapted for studying steel continuous casting technology was proposed. The model based on system theory contained input/output, command, and control parameters. The process was divided into five stages, i��e��, tundish, mold, guiding system, guiding��drawing system, and guiding��drawing��soft reduction system. The model can be used to describe the physicochemical processes, thermal processes, chemical processes, and characteristics of the cast material according to the above��mentioned stages. It can also be applied to other metallurgical technologies and even to other industries (chemistry, food, etc��).
C Gheorghies;I Crudu;C Teletin;C Spanu. Theoretical Model of Steel Continuous Casting Technology[J]. �й������ڿ���, 2009, 16(1): 12-0.
C Gheorghies;I Crudu;C Teletin;C Spanu. Theoretical Model of Steel Continuous Casting Technology. Chinese Journal of Iron and Steel, 2009, 16(1): 12-0.
2009, Vol. 16 
