Engang WANG
,
Jicheng HE
材料科学技术(英)
The thermomechanical behavior of the thin, growing shell during the early stages of solidification in the continuous casting mold is very important to the ultimate quality of the final billet. A two-dimensional, transient finite element model has been developed to treat the heat flow and deformation of solidifying shell in the continuous casting billet mold as coupled phenomena. The major application of the model is to predict the extent of the gap between the mold and the shell, and focus on the influence of mold taper on the thermomechanical behavior of the steel billet to help understand the formation of off-corner cracks and breakouts in the solidifying shell. The calculations indicate that the gap is initially formed at the corner of the billet, where heat transfer is greatly reduced. Insufficient mold taper contributes to a hot spot in the off-corner region, which corresponds to the thinnest shell thickness. Meanwhile, the solidifying front along the diagonal of the billet is subjected to an excessive mechanical strain, which causes the off-corner cracks and even the breakouts.
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