Abstract
Configurational thermodynamics of the Fe-Cr sigma phase is investigated on the basis of an Ising-type configurational Hamiltonian and a single-site mean-field model for the free energy. The parameters of the statistical models are obtained from efficient first-principles calculations using different computational techniques. We demonstrate that the effective pair and multisite interactions in the phase are relatively small, which allows using a simplified model for distributing Fe and Cr atoms among sublattices. We also show that this system exhibits a nontrivial magnetic behavior at high temperatures, which affects the site occupation by Fe and Cr atoms. The structural variation (volume and ) that might be present due to neutron irradiation and thermal expansion can lead to an additional atomic redistribution.
1 More- Received 29 August 2011
DOI:https://doi.org/10.1103/PhysRevB.84.184206
©2011 American Physical Society