【 摘 要 】

The numerical modelling of casting processes is based on complex software packages, which most often use the finite element method. But the degree of complexity of the applied model may cause an occurrence of numerical errors. These errors may be generated both by an incorrect finite element mesh and by the use of incorrect material characteristics. The ProCAST numerical software package was used for numerical calculations. A 3D model was developed on the basis of the process parameters of an actual continuous steel casting process. The temperature distribution of a solidifying strand, with dimensions of 220x1100mm, was analysed for two steel grades: F320 and S235. A series of numerical simulations were performed where the influence of the applied viscosity values on the solidifying strand temperature distribution was presented. Viscosity values from rheological examinations that were performed with an FRS1600 high-temperature rheometer were used in the numerical simulations of the CC process. The aforementioned rotational measurements were carried out for the F320 and S235 steels in the liquid and in the semi-solid statesto examine the influence of temperature on the viscosity value changes obtained. A concentric cylinder systems working in accordance with Searle’s method was used for the measurements. Numerical calculations that were based on the viscosity values from the CompuTherm LLC, thermodynamic database were compared with one other in the project. The calculated temperature distribution of the solidifying CC strand was verified on the basis of a database that was created during measurements which were conducted in industrial conditions.

【 授权许可】

Unknown   

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