First Principles Phase Diagram Calculations for the Octahedral-Interstitial System ZrOX, 0 ≤ X ≤ 1/2

Abstract

First principles based phase diagram calculations were performed for the octahedral-interstitial solid solution system α ZrOX (α Zr[ ](1-X)OX; [ ]=Vacancy; 0 ≤ X ≤ 1/2). The cluster expansion method was used to do a ground state analysis, and to calculate the phase diagram. The predicted diagram has four ordered ground-states in the range 0 ≤ X ≤ 1/2, but one of these, at X=5/12, is predicted to disproportionate at T ≈ 20K, well below the experimentally investigated range T ≈ 420K. Thus, at T 420K, the first-principles based calculation predicts three ordered phases rather than the four that have been reported by experimentalists.