Abstract
The interaction of objects suspended in a liquid melt with an advancing solidification front is of special interest in nature and engineering sciences. The front can either engulf the object into the growing crystal or repel it. Therefore, the object-front confrontation can have a strong influence on the microstructure and mechanical or functional properties of the solidified material. The past theoretical models and experimental studies have mostly investigated the interaction of isolated, spherical, and hard objects in pure melts. However, the outcome of object-front interactions in complex (more realistic) systems, where multiple objects and solutes are present, is still poorly understood. Here we show the interaction of multiple oil droplets with an ice-water front in the absence and presence of solute effects using in situ cryo-confocal microscopy. We report on how the object size, number of objects, and bulk solute concentration influence the the object-front interaction and the front morphology, as well as the subsequent object spatial distribution. We suggest that the volume fraction of objects suspended in a liquid melt in conjunction with the amount of bulk solute concentration are two important parameters to be incorporated in the development of object-front interaction models.
Highlights
The interaction of objects suspended in a liquid melt with an advancing solidification front is of special interest in nature and engineering sciences
The size, presence of multiple objects, complex front morphology, and high concentration of solute significantly alter the microstructure developed during directional solidification
We have observed no change in critical radius ( Rc ) in the presence of solute effects contrary to the predictions of the theoretical models
Summary
The interaction of objects suspended in a liquid melt with an advancing solidification front is of special interest in nature and engineering sciences. The past theoretical models and experimental studies have mostly investigated the interaction of isolated, spherical, and hard objects in pure melts. The interaction of soft (bubbles, droplets, cells) or hard (rigid particles) objects with a moving solidification front is a ubiquitous phenomenon with diverse natural and technical occurrences. A major goal in understanding these systems is to elucidate the outcome of this interaction and predict the object behaviour (engulfment or rejection) and the spatial distribution of objects after solidification. Studies performed subsequently on the interaction of a single isolated object with a solidification front deduced a critical velocity (V c ), the growth rate below which an object is pushed (V sl < Vc ), while the object is engulfed by the growing solid above it (V sl > Vc)[13,14].
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