LAUSR

AbstractThe Electron beam cold hearth remelting (EBCHR) process has emerged as a key process in producing overlength TC4 round ingots. However, the quality of the ingots suffer from inhomogeneous composition segregation which is induced by improper operations. In the present study, a numerical model verified with experimental data from the literature was employed to investigate the finer details of EBCHM process. In order to track temperature evolution on the mold surface, heating by an approximating beam-pattern, user-defined function compiled with C code was added to the calculation. In addition, the evolution of the solid–liquid interface and melt-flow during EBCHM were also investigated under different operation conditions. The recommended pool morphology was found when the inlet velocity was 0.0295 m/s, the temperature of the inlet was maintained at 2173 K, and the mold surface was maintained at 1973 K. In those conditions, stirring inside the pool was strengthened to homogenize the composition, which may optimize the quality of the ingots.