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A CELLULAR AUTOMATON-APPROACH TO SIMULATION OF GRAIN STRUCTURE DEVELOPMENT IN ELECTROSLAG CASTING

X.Q. Wei and L. Zhou School of Mechanical Electrical Engineering and School of Chemistry and Materials Science , Nanchang University , Nanchang 330029 , China Manuscript received 30 July 1999

金属学报(英文版)

A 3-D cellular automaton model of thermal transfer and solidification has been developed, aiming at a simulational study of the grain structure development in electroslag casting. The program we developed for simulation of the model allows the effects of both metallurgical factors, including solidification point, supercooling required for nucleation and its scattering, and liquid/solid interface energy, and thermophysical factors, including heat conduction coeffcients, heat transfer coefficients and latent heat, to be investigated. The effect of process control can be indirectly inspected with the simulation by varying the melting rate. A box counting algorithm was employed to estimate the local curvature of liquid/solid interface. A series of simulated experiments of electroslag casting processes have been carried out. The simulation started from the beginning of the electroslag casting and proceeds by iteration of certain rules, during which a uniform constant slag temperature and a constant melting rate were assumed. It has been observed that a pool of molten metal forms and deepens gradually under constant melting rate. The deepening of the pool slows down with the simulated electroslag casting process, and the depth and shape of the pool tends to be steady after certain height of cast is formed. A finger-like grain structure with the fingers approximately normal to the bottom of the molten metal pool was generally observed. Higher latent heat was found to enhance dendritic growth. The results agree well with general observation of the grain structures in electroslag castings and demonstrate the applicability of cellular automaton modeling to structural development in casting.

关键词: electroslay casting , null , null

DISTRIBUTIONS OF MICROSTRUCTURES IN QUENCHED STEELS AS REVEALED BY COMPUTER SIMULATION

L. Zhou and X.Q. Wei School of Chemistry and Materials Science and School of Mechanical/Electrical Engineering , Nanchang University , Nanchang 330047 , China

金属学报(英文版)

A cellular automaton model of heat transfer and structural development in quenching steels has been developed and programmed for a three-dimensional computer simulation. A previous study has validated the simulation method by agreements of simulated cooling curves and hardenability with reported experimental data. In present work, a series of simulated quenching experiments for steel 1080 and 4140 steel have been carried out. With five adjustable parameters, a large variety of cooling conditions has been created and applied to the simulated quenching. Effect of delayed quenching and the associated phenomenon of inverse hardening have been addressed with emphasis.

关键词: microstructure , null , null

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