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Fatigue performance of beta titanium alloy topological porous structures fabricated by laser powder bed fusion

Zhaoyang Wu, Yujing Liu, Xiang Wu, X.C. Liu, Jincheng Wang, Qingyuan Wang

2024Journal of Materials Research and Technology28 citationsDOIOpen Access PDF

Abstract

The performance of porous β-titanium alloys is crucial for their diverse applications, with fatigue characteristics playing a pivotal role in shaping the design of these porous structures. While topological configurations have exhibited exceptional property, a systematic understanding of their fatigue performance is lacking in recent literature. This study reveals that at a porosity level of ∼75%, designed topologically optimized (TO) structures surpass rhombic dodecahedron (RD) structures in compressive yield strength by ∼4 times (149 ± 3 MPa vs. 38 ± 1 MPa). Furthermore, post-heat treatment further enhances the yield strength of TO structures by ∼15%, reaching 172 ± 3 MPa due to grain refinement and β phase stabilization. Moreover, the as-printed TO structure exhibits exceptional compressive fatigue endurance, enduring stress approximately ∼5 times higher than the as-printed RD structure at a cycle count of 106. Microstructure analysis after fatigue testing reveals a reduction in the α" martensitic phase and an increase in stress-induced ω phase in the heat-treated TO structure, contributing to a slight improvement in fatigue strength compared to the as-printed TO structure. The exceptional fatigue performance observed in LPBF-built beta-type titanium alloy within TO structures highlights the complex relationship between porous structure design, microstructure, compressive strength, and fatigue performance.

Topics & Concepts

Materials scienceMicrostructurePorosityTitanium alloyCompressive strengthAlloyFatigue limitComposite materialDodecahedronTitaniumMartensitePhase (matter)Yield (engineering)Stress (linguistics)MetallurgyCrystallographyLinguisticsChemistryPhilosophyOrganic chemistryTitanium Alloys Microstructure and PropertiesBone Tissue Engineering MaterialsAdditive Manufacturing Materials and Processes
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