2D1/2 Thermal-Mechanical Model of Continuous Casting of Steel Using Finite Element Method

• Main Author: Pascon, Frédéric
• Other Authors: Grober, H.
• Format: Others
• Published: Universite de Liege 2003
• Subjects: steel/acier; model/modele; finite element/elements finis; continuous casting/coulee continue
• Online Access: http://bictel.ulg.ac.be/ETD-db/collection/available/ULgetd-06262007-100522/

The thesis deals with a numerical model based on the finite element method applied to the continuous casting process. This model has been developed and implemented in the LAGAMINE finite element code and two industrial applications of steel casting are presented to illustrate the possibilities of the model. The first chapter of the thesis introduces the continuous casting process from the industrial point of view, allowing the definition of the essential terminology and the industrial challenges. Then, the objectives of the model are detailed: the model is applied to the upper part of the caster (in the mould region) as well as the bending and straightening zones. Chapters two, three and four are dedicated to the theoretical developments of thermal aspects (phase transformations, thermal contraction, heat flow and thermal boundary conditions), mechanical aspects (generalized plain strain state, material constitutive law, ferrostatic pressure and mechanical contact) and the staggered analysis for thermal / mechanical coupling. In the two next chapters, some numerical results are shown. The model has been first applied to a 125mm square billet in the mould region. The industrial goal was to evaluate the effect of the mould taper on the cooling of the billet (temperature evolution, solid shell growing, stress and strain development). The second application focuses on the risk of transverse cracking during straightening of steel slabs and the effect of some local defects (reduction in secondary cooling, rolls locking or misalignment). The thesis ends with some conclusions and perspectives for the model.