Critical evaluation and thermodynamic modeling of the Al-Li binary system

Al-Li alloys have extensive applications in aircraft and spacecraft due to their high mechanical performance and lightness in weight. In this work, the thermodynamic property and phase equilibria data of the Al-Li system available in the literature were critically reviewed and evaluated, thermodynamic assessments of the entire Al-Li system were then carried out based on the reliable experimental thermochemistry and phase equilibria data. The liquid phase was described using both the modified quasi-chemical model in pair approximation and the regular solution model. The compound energy formalism and the regular solution model were used to describe the Gibbs energies of the solid phases. The split four sublattice compound energy formalism was used to model the Gibbs free energies of the ordered AlLi (B32) and Al3Li (L12) superlattice structures. The reliable thermodynamic property and phase equilibria data can generally be represented by the currently obtained sets of self-consistent thermodynamic descriptions.

Automated summary

This work critically reviewed and evaluated the thermodynamic property and phase equilibria data of the Al-Li system, and conducted thermodynamic assessments based on reliable experimental thermochemistry and phase equilibria data. The liquid phase was described using modified quasi-chemical and regular solution models, while the solid phases were described using compound energy formalism and regular solution model. The Gibbs free energies of the ordered AlLi (B32) and Al3Li (L12) superlattice structures were modeled using the split four sublattice compound energy formalism. The obtained thermodynamic descriptions can generally represent the reliable data.