论文信息 - Mathematical model of the thermal processing of steel ingots: Part I. Heat flow model

Mathematical model of the thermal processing of steel ingots: Part I. Heat flow model

A two-dimensional mathematical model has been developed to predict stress generation in static-cast steel ingots during thermal processing with the objective of understanding the role of stress generation in the formation of defects such as panel cracks. In the first part of a two-part paper the formulation and application of a heat-flow model, necessary for the prediction of the temperature distribution which governs thermal stress generation in the ingot, are described. A transverse plane through the ingot and mold is considered and the model incorporates geometric features such as rounded corners and mold corrugations by the use of the finite-element method. The time of air gap formation between mold and solidifying ingot skin is input, based on reported measurements, as a function of position over the ingot/mold surface. The model has been verified with analytical solutions and by comparison of predictions to industrial measurements. Finally, the model has been applied to calculate temperature contours in a 760×1520 mm, corrugated, low-carbon steel ingot under processing conditions conducive to panel crack formation. The model predictions are input to an uncoupled stress model which is described in Part II.

[1] G. Forsythe,et al. Computer solution of linear algebraic systems , 1969 .

[2] J. Ormerod,et al. Thermal diffusivity of cast irons , 1978 .

[3] William Prager,et al. Theory of Thermal Stresses , 1960 .

[4] G. G. Stokes. "J." , 1890, The New Yale Book of Quotations.

[5] J. Z. Zhu,et al. The finite element method , 1977 .

[6] A. Mendelson. Plasticity: Theory and Application , 1968 .

[7] J. Szekely,et al. Rate phenomena in process metallurgy , 1971 .

[8] A. Diener,et al. Untersuchungen über den Wärmeübergang zwischen Block und Kokille beim Erstarren von Stahl , 1972 .

[9] Bernhard A. Schrefler,et al. Numerical methods in heat transfer , 1983 .

[10] Diran Apelian,et al. Modeling of casting and welding processes : proceedings of a symposium , 1981 .

[11] H. Schulze,et al. Analytical and numerical solutions to two-dimensional moving interface problems with applications to the solidification of killed steel ingots , 1983, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.

[12] J. Douglas Faires,et al. Numerical Analysis , 1981 .

[13] I. V. Samarasekera,et al. Comparison of numerical modeling techniques for complex, two-dimensional, transient heat-conduction problems , 1984 .

[14] E. P. Popov,et al. Introduction to Mechanics of Solids , 1968 .

[15] Graeme Fairweather,et al. Three level Galerkin methods for parabolic equations , 1974 .