Fluid Flow and Solidification Simulation in Beam Blank Continuous Casting Process With 3D Coupled Model

摘要

Based on turbulent theory, a 3D coupled model of fluid flow and solidification was built using finite difference method and used to study the influence of superheating degree and casting speed on fluid flow and solidification, analyze the interaction between shell and molten steel, and compare the temperature distribution under different technological conditions. The results indicate that high superheating degree can lengthen the liquid-core depth and make the crack and breakout possible, so suitable superheating should be controlled within 35 ℃ according to the simulation results. Casting speed which is one of the most important technological parameters of improving production rate, should be controlled between 0.85 m/min and 1.05 m/min and the caster has great potential in the improvement of blank quality.