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Numerical Simulation of the Thermo-Mechanical Process for Beam Blank Continuous Casting

W. Chen , Y.Z. Zhang , C.J. Zhang , L.G. Zhu

金属学报(英文版)

The aim of this study is to simulate the solidification process of beam blank continuous casting, and then find the reasons for the typical defects of the beam blank. A two-dimensional transient coupled finite element model has been developed to compute the temperature and stress profile in beam blank continuous casting. The enthalpy method is used in the heat conduction equation. The thermo-mechanical property in the mushy zone is taken into consideration in this calculation. It is shown that at the mold exit the thickness of the shell has its maximum value at the flange tip and its minimum value at the fillet. The temperature has a great fluctuation on the surface of the beam blank in the secondary cooling zone. At the unbending point, the surface temperature of the web is in the brittleness temperature range under the present condition. To ensure the quality, it is necessary to weaken the intensity of secondary cooling. At the mold exit the equivalent stress and strain have higher values at the flange tip and at the web. From the spray 1 to the unbending point, the maximum values of stress and strain gradually move to the internal section of the flange tip and the web. However, whenever, there are bigger stress and strain values near the flange tip and the web than in the other parts, it must be very easy to generate cracks at those positions. Now, online verification of this simulation has been developed, which has proved to be very useful and efficient to instruct the practical production of beam blank continuous casting.

关键词: beam blank , null , null , null

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