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Metastable microstructure evolution and grain refinement in a Low-Ta containing γ-TiAl alloy through heat treatment

Zitong Gao, Rui Hu, Hang Zou, Jinguang Li, Mi Zhou, Xian Luo

2024Journal of Materials Research and Technology21 citationsDOIOpen Access PDF

Abstract

The paper comprehensively describes the evolution of metastable microstructures in a cast low-Ta-containing γ-TiAl alloy during cooling-tempering-lamellarization heat treatments. The behavior and mechanism of microstructure refinement are discussed. The rapid cooling generates metastable microstructures, including Widmanstätten, feathery, and massive structures, with many γ variants in small sizes and different orientations. It significantly refines the coarsened colonies and randomizes the texture. The tempering can effectively stabilize the metastable microstructures. During tempering, the γ→α phase transformation is more active at higher temperatures while coarsening and recrystallization dominate at lower temperatures. After tempering, a refined microstructure with spherical grains and convoluted structures forms. Subsequent lamellarization treatment optimizes the microstructure and obtains a fine-grained nearly-lamellar microstructure with small colonies (∼70 μm) and dispersed fine γ grains (∼10 vol%), which yielded a 1.0 % elongation with a 487 MPa yield strength (0.2%) and a 589 MPa ultimate tensile strength at room temperature. Finally, the unique promotion effects and mechanism of a small amount of Ta addition on the nucleation, growth, evolution, and stabilization of metastable microstructures are concluded and discussed, which is crucial for the refinement of cast γ-TiAl alloy by heat treatment alone.

Topics & Concepts

Materials scienceMicrostructureTemperingNucleationAlloyLamellar structureMetallurgyRecrystallization (geology)MetastabilityUltimate tensile strengthComposite materialThermodynamicsPhysicsPaleontologyQuantum mechanicsBiologyIntermetallics and Advanced Alloy PropertiesMXene and MAX Phase MaterialsAdvanced materials and composites
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