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Making high primary α phase content titanium alloy exceptional strength and ductility by designing the heterogeneous structure

Jifei Hu, Peng Qi, Wu Wei, Bolong Li, Tongbo Wang, Jiaming Yin, Zuoren Nie

2024Journal of Materials Research and Technology19 citationsDOIOpen Access PDF

Abstract

As a challenge to avoid the strength-ductility trade-off for Ti alloys, strength and ductility are contradictory, especially at a high content of primary α phase. This study proposed a new strategy to evade this trade-off dilemma by designing an 81% primary α phase/ultrafine-grained (UFG) secondary α phase lamellar heterogeneous structure(LPSlow-HS) in near-α Ti alloys. Compared to the bimodal structure, the LPSlow-HS offers a remarkable increase in the ultimate tensile strength(1119 MPa) and yield strength(1069 MPa), respectively, while the elongation (15%) is not sacrificed. Owing to the strong heterogeneous deformation-induced(HDI) strengthening, more number of delamination of interfaces, UFG microstructures and strong strain hardening render the Ti alloys high strength. This strategy may provide a new approach for achieving higher HDI strengthening effects in heterogeneous structures (HS) under high soft phases, and offer a feasible method for producing high strength-ductility Ti alloys under high primary α phase.

Topics & Concepts

Materials scienceUltimate tensile strengthAlloyDuctility (Earth science)Titanium alloyLamellar structureMicrostructureStrain hardening exponentPhase (matter)Deformation (meteorology)TitaniumMetallurgyComposite materialOrganic chemistryCreepChemistryTitanium Alloys Microstructure and PropertiesMicrostructure and mechanical propertiesAdvanced Welding Techniques Analysis
Making high primary α phase content titanium alloy exceptional strength and ductility by designing the heterogeneous structure | Litcius