论文信息 - Macroscopic modeling of solidification processes by performing the generalized enthalpy method

Macroscopic modeling of solidification processes by performing the generalized enthalpy method

Abstract The generalized enthalpy method is a single domain method to describe heat and mass transport without the necessity to take the phase distribution or phase boundaries into account [A. Mackenbrock, K.-H. Tacke, Metall. Mater. Trans. B 26B (1996) 871–881]. Here, the temperature T is an independent parameter. The important quantity is the enthalpy H , which is used to calculate the energy flow. Hence, it is possible to simulate macroscopic multi-phase systems with reduced computational effort. Calculations were carried out, describing solidification and microstructure formation during continuous casting of peritectic steel grades. The binary Ti–Al system with its numerous intermetallic phases is modeled to describe solidification and phase formation at heterogenous laser welded interfaces.

Georg Frommeyer | J. Gnauk | R. Wenke

[1] K. Tacke,et al. Generalized enthalpy method for multicomponent phase change , 1996 .

[2] C. J. F. Ridders,et al. A new algorithm for computing a single root of a real continuous function , 1979 .

[3] H. Okamoto,et al. The C-Fe (carbon-iron) system , 1992 .

[4] Marcelo de Aquino Martorano,et al. A solutal interaction mechanism for the columnar-to-equiaxed transition in alloy solidification , 2003 .

[5] M. Hillert,et al. The Regular Solution Model for Stoichiometric Phases and Ionic Melts. , 1970 .

[6] J. Ågren,et al. A regular solution model for phases with several components and sublattices, suitable for computer applications , 1981 .

[7] O. Redlich,et al. Algebraic Representation of Thermodynamic Properties and the Classification of Solutions , 1948 .

[8] E. Schürmann,et al. Ein Nahordnungsmodell zur Berechnung thermodynamischer Mischungsgrößen und seine Anwendung auf das System Eisen-Kohlenstoff , 1979 .

[9] M. Taha,et al. Dendrite morphology of several steady state unidirectionally solidified iron base alloys , 1982 .

[10] J. Hunt,et al. Steady state columnar and equiaxed growth of dendrites and eutectic , 1984 .

[11] J. Warren,et al. Prediction of dendritic growth and microsegregation patterns in a binary alloy using the phase-field method , 1995 .