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Breaking through the strength-ductility trade-off of LPBF-produced Ti-<i>x</i>Nb alloys from mixed powders via ω-phase induced heterostructure

Jianbo Jin, Shengfeng Zhou, Huan Yang, Junjie Yang, Zhiguo Zhang, Baisong Guo, Lai‐Chang Zhang

2025International Journal of Extreme Manufacturing17 citationsDOIOpen Access PDF

Abstract

Abstract Ti- x Nb alloys produced by laser powder bed fusion (LPBF) from mixed powder usually exhibit an inhomogeneous elemental distribution, leading to a deterioration in mechanical properties. To address this issue, we proposed a strategy to achieve heterostructure in laser powder bed fused Ti- x Nb alloys from mixed powders through precipitation of ω within β. Moreover, the effect of Nb content on the microstructure and mechanical behavior of Ti- x Nb alloys was studied. The results indicated that in-situ laser re-melting can realize the homogeneous elemental distribution in Ti- x Nb alloys. When the Nb content increases from 30 wt%, 35 wt% to 40 wt%, Ti- x Nb alloys experience a transformation from β + α′ to β + ω and monolithic β. Specifically, ω nano-precipitates in Ti-35Nb alloy are only distributed in some β grains, forming a heterostructure with “soft β” and “hard β + ω” grains. As a result, LPBF-produced Ti-35Nb alloy demonstrates excellent mechanical properties, with yield strength of ∼(792 ± 6) MPa, tensile strength of ∼(806 ± 7) MPa, Young’s modulus of ∼(68 ± 6) GPa, and uniform elongation of ∼(18.0 ± 1.1)%. The Frank-Read mechanism induces dislocation proliferation and dislocation cross-slip, and the geometrically necessary dislocations (GNDs) are induced at the heterogeneous interface of “soft β” and “hard β + ω” grains, resulting in an enhancement in the strength-ductility synergy of Ti-35Nb alloy produced by LPBF. This work provides an innovative strategy to improve the strength-ductility synergy of LPBF-produced Ti- x Nb alloys from mixed powders by tailoring ω nano-precipitates.

Topics & Concepts

Materials scienceDuctility (Earth science)Phase (matter)HeterojunctionMetallurgyOptoelectronicsChemistryCreepOrganic chemistryTitanium Alloys Microstructure and PropertiesAdditive Manufacturing Materials and ProcessesIntermetallics and Advanced Alloy Properties
Breaking through the strength-ductility trade-off of LPBF-produced Ti-<i>x</i>Nb alloys from mixed powders via ω-phase induced heterostructure | Litcius