A compound unit method for incorporating ordered compounds into lattice models of alloys

Author(s)

Kalidindi, Arvind Rama; Schuh, Christopher A

Abstract

Lattice models can be a basic tool for alloy design, due to their ability to capture the most important thermodynamic and kinetic phenomena of a wide-range of alloys at a low computational cost. However, in order to correctly treat ordered precipitates at off-stoichiometric compositions requires multi-body potentials, and these can be challenging to calibrate to known alloy behaviors. Here we introduce a simple means of capturing the multi-body terms needed to treat ordered compounds in a lattice model based on defining “compound units”. This approach is particularly designed for, and easily calibrated in, cases where the structure and formation energy of equilibrium compounds are already known. This is accomplished by defining a compound unit that derives its energy from the formation energy of the compound as an a priori input. The method is illustrated for a binary alloy with D03 and B2 stable compounds. Keywords: Ordered compound; Intermetallic; Alloy; Ising model; Monte Carlo; Pairwise

Date issued

2016-03

URI

http://hdl.handle.net/1721.1/116381

Department

Massachusetts Institute of Technology. Department of Materials Science and Engineering

Journal

Computational Materials Science

Publisher

Elsevier

Citation

Kalidindi, Arvind R. and Christopher A. Schuh. “A Compound Unit Method for Incorporating Ordered Compounds into Lattice Models of Alloys.” Computational Materials Science 118 (June 2016): 172–179 © 2016 Elsevier B.V.

Version: Author's final manuscript

ISSN

0927-0256