Abstract
The phenomenon of particles segregation by a solidification front is very important in several areas like metallurgy, materials science, biology, soils freezing, etc. When a particle is close to a freezing front, it may be trapped in the solid region or may be repulsed by the moving freezing interface. The behaviour of the particle depends essentially on its size and on the distance between the particle and the interface. In this contribution, we develop a theoretical investigation of the different forces exerted on a solid particle and make comparisons with recent observations. The results should apply also to gas bubbles and droplets. The involved forces, i.e. the hydrodynamic force which favours capture, and the van der Waals forces which may induce rejection are determined for various sets of conditions and assumptions: ideal case (pure liquid, planar interface, smooth particle); and realistic cases (curved interface, different surface properties of the particle). Moreover, the boundary conditions for viscous drag are time dependent and clearly expressed. This represents a first step towards the development of a dynamical model.
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