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Structural stabilities and thermal properties of η′-Mg2Zn5-Al2+ and η-MgZn2 phase in Al–Zn–Mg alloy: first-principles calculation and quasi-harmonic Debye approximation

Shao Hongbang, Yuanchun Huang, Yu Liu, Ren Xianwei, Xiao Zhengbing

2020Journal of Materials Research and Technology23 citationsDOIOpen Access PDF

Abstract

The structural stabilities and thermal properties of η′ and η phase at high temperature and pressure were investigated via first principles calculations combined with quasi-harmonic Debye approximation (QHA). The calculated results illustrate η′ possess high formation enthalpy with lower structural stability at high temperature, which may transits to equilibrium phase η at temperature range of 510–520 K. The calculated thermodynamic properties indicate η exhibits better thermal stability than η′ at high temperature. The thermoelastic properties of η′ and η were estimated based on the temperature-dependent elastic constants Cij(T), and it is revealed the elastic moduli of η′ are larger than that of η though both two phases become deformable with elevated temperature. Moreover, the evaluated thermoelastic anisotropies suggest η′ and η are essentially elastic isotropic on {0001} plane, while η′ exhibit serious mechanical anisotropy and angular bonding characters on both {10-10} and {01–10} planes at high temperature.

Topics & Concepts

Thermoelastic dampingDebye modelMaterials scienceThermodynamicsIsotropyPhase (matter)EnthalpyAnisotropyAtmospheric temperature rangeElastic modulusThermal stabilityAlloyStructural stabilityCondensed matter physicsDebyeThermalComposite materialPhysicsOpticsQuantum mechanicsStructural engineeringEngineeringMagnesium Alloys: Properties and ApplicationsAluminum Alloys Composites PropertiesAluminum Alloy Microstructure Properties
Structural stabilities and thermal properties of η′-Mg2Zn5-Al2+ and η-MgZn2 phase in Al–Zn–Mg alloy: first-principles calculation and quasi-harmonic Debye approximation | Litcius