Abstract
A local nonequilibrium approach to rapid solidification of undercooled alloys is presented. Taking into account the finite speed of mass signals, a steady-state solution to the nonisothermal rapid solidification problem has been obtained. We have found that, if the solidification front moves at a velocity V equal to or higher than the diffusive speed in the liquid, a partitionless thermal-controlled situation takes place. The solidification mechanism changes at V= and the constitutional undercooling is lacking ahead of the solidification front. Some comparisons with the known experimental and theoretical results are discussed.
DOI:https://doi.org/10.1103/PhysRevE.55.343
©1997 American Physical Society