Abstract
Abstract Heterogeneous nucleation of solidification of Cd has been studied in melt spun A1-2 wt% Cd-0-5 wt% Ge by using differential scanning calorimetry and transmission electron microscopy. The microstructure of the melt spun alloy consists of small faceted Cd particles embedded in an Al(Ge) matrix. The Cd particles exhibit an orientation relationship of {111} A1(Ge)‖ {0001}cd and A1(Ge)‖⟨110)cd with the surrounding Al(Ge) matrix, and have a truncated octahedral shape bounded by {111}A1(Ge) and {001}A1(Ge) planes, with four variants of the particle shape depending upon which of the four {111}A1(Ge) planes is parallel to {0001}cd. On cooling from above the equilibrium Cd melting temperature, solidification of the Cd particles is nucleated heterogeneously on the {111} facets of the Al(Ge) matrix at an undercooling of 65 K, 9 K larger than that required on the {111} facets of pure Al in the binary alloy A1-4·5wt%Cd. The contact angle at the {0001}cd-liquid Cd-{111}A1(Ge) triple point is 50° compared w...
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