Author: Stipp A. Palberg T.
Publisher: Taylor & Francis Ltd
ISSN: 1362-3036
Source: Philosophical Magazine Letters, Vol.87, Iss.11, 2007-11, pp. : 899-908
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Abstract
From the formation of crystalline materials from their melts is at the heat of many important industrial processes. A rigorous and comprehensive understanding of the crystallization process, however, is still lacking, and its experimental and theoretical investigation has remained a considerable challenge. We studied the crystal growth velocities v of random composition body centred cubic (rc-bcc) colloidal crystals formed from a shear molten binary mixture of charged colloidal spheres suspended in deionized water. We used Bragg microscopy at constant particle number density n and as a function of the number fraction of large particles p. With increasing p the growth velocity v first drops steeply, then more slowly to yield an overall trapezoidal composition dependence. This dependence is not expected from the Wilson-Frenkel growth law for reaction limited growth which on the other hand correctly describes the number density dependence. The deviation possibly indicates a change in the kinetic prefactor.
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