Journal
ACTA MATERIALIA
Volume 58, Issue 13, Pages 4325-4331Publisher
PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.actamat.2010.04.018
Keywords
Coarsening; Precipitates; Kinetics; Interface diffusion; Nickel-aluminum alloys
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Data on the coarsening of gamma' (Ni(3)Al) precipitates in binary Ni-Al alloys are re-examined quantitatively in light of the theory of trans-interface diffusion-controlled (TIDC) coarsening, which predicts time-dependent behavior of the type (r)'' approximate to k(T)t for the growth of precipitates of average radius < r > and X approximate to K(T)t(-1/n) for the depletion of solute concentration in the matrix, X. The exponent n is intimately related to the width of the precipitate-matrix interface, delta, which depends on r as delta proportional to r(m) (m = n - 2). The scaled distribution of particle sizes (PSD) also depends on n, while the rate constants k(T) and kappa(T) depend on the thermophysical constants of the alloy system. In Ni-Al alloys n = 2.4, determined from analyzing three different sets of PSDs. Quantitative analysis yields interfacial free energies and chemical diffusion coefficients that agree exceptionally well with extant data. The TIDC theory is the only theory that is consistent, both qualitatively and quantitatively, with the entirety of the data. Published by Elsevier Ltd. on behalf of Acta Materialia Inc.
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