Application of the grand canonical ensemble to the study of equilibrium point defect concentrations in binary intermetallic phases with the B2-structure
R. Krachler et H. Ipser, Application of the grand canonical ensemble to the study of equilibrium point defect concentrations in binary intermetallic phases with the B2-structure, INTERMETALL, 7(2), 1999, pp. 141-151
A statistical thermodynamic model of ordering in nonstoichiometric B2-phase
s is developed, based on the oldest and simplest theory of ordering, the me
an-held approximation with constant pair-wise interaction energies between
nearest-neighbor atoms. This approximation is limited to the description of
the distribution of atoms and vacancies on the different sublattices, a po
ssible short-range ordering tendency of point defects is neglected. The exp
ressions for the point defect concentrations as a function of composition a
nd temperature are derived from the grand canonical ensemble. In B2-phases
the vacancy concentration depends on composition and temperature and it is
therefore necessary to consider an open system, where the transfer of atoms
to or from the outside is allowed. In B2-phases not only one defect equili
brium is involved! but there are four defect equilibria to be considered. I
t is shown that, if a series of defect equilibria is involved, it is necess
ary to apply the principle of microscopic reversibility to formulate the re
quired number of independent equilibrium conditions. Expressions for the ac
tivities and partial molar enthalpies of the alloy components as a function
of composition and temperature are derived, and a comparison with experime
ntal data for beta'-FeAl is given, which shows the practicability of this a
pproach. (C) 1999 Elsevier Science Ltd. All rights reserved.