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Distinctive ductility anisotropy induced by keyhole pores in Y2O3-reinforced high-temperature titanium alloy fabricated by additive manufacturing | Synapse
March 3, 2026
Distinctive ductility anisotropy induced by keyhole pores in Y2O3-reinforced high-temperature titanium alloy fabricated by additive manufacturing
SL
Shun Liu
RG
Ruiqi Guo
MW
Menglu Wang
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Key Points
Distinctive ductility anisotropy is observed in high-temperature titanium alloys with keyhole pores.
The presence of keyhole pores significantly influences the mechanical properties, particularly ductility.
Additive manufacturing techniques were employed to create Y2O3-reinforced titanium alloys.
Findings suggest that understanding pore effects could enhance material performance in engineering applications.
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Liu et al. (Tue,) studied this question.
synapsesocial.com/papers/69a75b20c6e9836116a21dfb
https://doi.org/https://doi.org/10.1016/j.matchar.2026.116070