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External stress induced pseudo‐spinodal transformation pathway with reduced lamellar size in γ‐TiAl alloys

Jianwei Li, Tianjiao Dong, Chuanxin Liang, Heran Wang, Lin He, Tianlong Zhang, Dong Wang

2025Rare Metals9 citationsDOI

Abstract

Abstract Reducing the size of the lamellar structures and increasing the number of twin structures are both effective strategies for enhancing the ductility and fracture toughness of γ‐TiAl alloys. Hot isostatic pressing combined with heat treatment is an promising method to optimize the microstructure of TiAl alloys and improve their mechanical properties. However, systematic investigations into the microstructural evolution under high temperature pressure/external stress are limited. In this study, by integrating phase field simulations and CALPHAD thermodynamic database, a unique microstructural response to external stress during aging process is revealed. With the increase of external stress, the size of the lamellar structure initially decreases but then increases, while the number of twin structures initially rises but then decreases, showing nonlinear relationships. An increase in external stress shifts the free energy curves, altering the position of c 0 (the intersection position between free energies of α 2 and γ), which leads to a change in the nucleation mechanism from classical nucleation to pseudo‐spinodal decomposition and influences the final microstructure of γ precipitates. Further simulations indicate a linear correlation between optimal external stress and varying Al content. A deeper analysis indicates that the observed variations in the size and twin structures can be attributed to the interplay among the growth rate of existing variants, the competitive nucleation rates of twinned variants and the redistribution of composition under different external stresses. Our findings provide new insights into optimizing microstructures by pressure/external stress in precipitation processes.

Topics & Concepts

Materials scienceSpinodalLamellar structureTransformation (genetics)Stress (linguistics)DislocationMetallurgyComposite materialCondensed matter physicsPhase (matter)BiochemistryOrganic chemistryPhilosophyPhysicsGeneLinguisticsChemistryIntermetallics and Advanced Alloy PropertiesSolidification and crystal growth phenomenaQuasicrystal Structures and Properties
External stress induced pseudo‐spinodal transformation pathway with reduced lamellar size in γ‐TiAl alloys | Litcius