2012
DOI: 10.1103/physrevb.85.224107
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Thermodynamics of coherent interfaces under mechanical stresses. II. Application to atomistic simulation of grain boundaries

Abstract: The thermodynamic theory of coherent interfaces developed in Part I of this work is applied to grain boundaries (GBs) subject to non-hydrostatic elastic deformations. We derive expressions for the GB free energy as the reversible work of GB formation under stress. We also present a generalized adsorption equation whose differential coefficients define the GB segregation, GB stress tensor, GB excess volume, and GB excess shear. The generalized adsorption equation generates a set of Maxwell relations describing … Show more

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Cited by 52 publications
(38 citation statements)
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“…Although the FL method provides a precise framework for computing vibrational contributions to the free energy at any arbitrarily high temperature, the presence of appreciable configurational disorder established through GB diffusion at high homologous temperatures would prohibit its application [45]. The free-energy curves calculated in this work can be extended to higher temperatures in a straightforward manner by integrating the adsorption equation [33,57] [Eq. (14)].…”
Section: Discussionmentioning
confidence: 99%
“…Although the FL method provides a precise framework for computing vibrational contributions to the free energy at any arbitrarily high temperature, the presence of appreciable configurational disorder established through GB diffusion at high homologous temperatures would prohibit its application [45]. The free-energy curves calculated in this work can be extended to higher temperatures in a straightforward manner by integrating the adsorption equation [33,57] [Eq. (14)].…”
Section: Discussionmentioning
confidence: 99%
“…An alternate, and computationally more efficient, approach is offered by atomistic simulations with empirical potentials [4,5]. For coherent γ/γ ′ interfaces, accurate but rather tedious calculations of σ could be performed by the thermodynamic integration method based on rigorous interface thermodynamic relations developed in [2,3]. In this paper we explore a different route involving the analysis of capillary waves on the interfaces.…”
mentioning
confidence: 99%
“…In the latter case, the γ-phase is an atomically disordered Ni-based solid solution whereas the γ ′ -phase is the intermetallic compound Ni 3 Al (L1 2 structure) accommodating a few atomic per cent of off-stoichiometry. Even in this simpler case, however, calculations σ are challenging due to the complexity of the underlying interface thermodynamics [2,3], issues with reliability of atomic interaction models, and the sheer volume of computations [2][3][4][5].…”
mentioning
confidence: 99%
“…The expression for calculating the temperature and concentration dependence of interfacial free energy γ in the presence of an interstitial solute was derived by Frolov and Mishin [37,38], as…”
Section: Thermodynamics Of Segregationmentioning
confidence: 99%