Abstract:A three-dimensional thermo-mechanical coupled finite element model was established, the temperature, von Mises stress and displacement distribution of new cooling structure mold were compared, the effect of the new cooling structure mold on copper plate thermo-mechanical behavior was studied. The results show that in wide hot face of copper plate at meniscus, the highest temperature and the maximum von Mises stress of new mold are 60 ℃ and 85 MPa lower than those of traditional mold, respectively. Meanwhile, the corresponding maximum norm displacements of new and traditional molds are 0.21 mm and 0.29 mm, respectively. The fluctuation range of temperature, von Mises stress and displacement of new and traditional mold at location mentioned above are 12 ℃ and 67 ℃, 33 MPa and 113 MPa, 0.02 mm and 0.09 mm, respectively. Consequently, the temperature, von Mises stress and displacement distribution of new mold copper plate are more uniform and reasonable than those of traditional mold copper plate, indicating that the new mold copper plate is more suitable for the casting of cracking sensitive steel grade than traditional mold.

Key words: continuous casting mold; copper plate; cooling structure; thermo-mechanical behavior; finite element model