The effect of the diffusion of solute between the particle and the interface on the particle pushing phenomena

Abstract

Interaction between moving solid/liquid interfaces and particles during solidification of alloys has been analyzed. A particle pushing criterion which incorporates the diffusion of the solute between the particle and the interface is proposed. In addition, the stability of the interface behind the particle is discussed. The shape of the interface behind the particle was obtained in terms of the ratio of the diffusion coefficient of the solute to the velocity of the interface (D/V). Based on this, the critical interface velocity was calculated under steady state conditions. It was found that the concentration of the solute behind the particle increases with increasing the interface velocity; in addition at high interface velocity the curvature of the interface is independent of interface velocities. It was found that the critical interface velocity under steady state conditions is one order lower than the critical interface velocity calculated numerically by Wu et al. in Al-Si alloy containing SiC particles. © 1998 Acta Metallurgica Inc.