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Effect of slight Sn modification on mechanical properties and corrosion behavior of Ti-(2–4 wt%) Mn alloys fabricated via powder metallurgy
X Zhou, H Fang, T Yuan, R Li - Materials Characterization, 2023 - Elsevier
The addition of Mn to Ti has been extensively investigated due to the remarkable
biocompatibility and strength of Ti-Mn alloys, but their ductility was to prove insufficient …
biocompatibility and strength of Ti-Mn alloys, but their ductility was to prove insufficient …
Towards bone-like elastic modulus in TiNbSn alloys with large recovery strain for biomedical applications
For biomedical titanium alloys, the reduction of their elastic modulus approximating that of
human bone (~ 30 GPa) is highly required for using them as bone implant materials to …
human bone (~ 30 GPa) is highly required for using them as bone implant materials to …
Microstructural design for achieving high performances in Ti-V-Al lightweight shape memory alloys by optimizing Zr content
X Yi, L Sheng, G Fu, B Sun, B Huang, K Sun… - Materials …, 2023 - Elsevier
In the present study, the quaternary Zr element was introduced to replace Ti in Ti-V-Al based
shape memory alloys. The addition of Zr element resulted in the microstructural features of Ti …
shape memory alloys. The addition of Zr element resulted in the microstructural features of Ti …
[HTML][HTML] Effect of cooling and annealing conditions on the microstructure, mechanical and superelastic behavior of a rotary forged Ti–18Zr–15Nb (at.%) bar stock for …
In this work, the microstructure, phase state, texture, superelastic and mechanical properties
of a Ti–18Zr–15Nb (at.%) shape memory alloy subjected to a combined thermomechanical …
of a Ti–18Zr–15Nb (at.%) shape memory alloy subjected to a combined thermomechanical …
Constituent phases, microstructures, and martensitic transformation of β-type Zr-Nb-Sn alloys
W Tasaki, F Okabe, Y Sato, S Miyazaki… - Materials Science and …, 2023 - Elsevier
Constituent phases, shape memory and superelastic properties and microstructure in β-type
Zr–(6–10.5) Nb–(2–5) Sn (at.%) alloys were investigated. Zr–(8–10.5) Nb–(2–4) Sn alloys …
Zr–(6–10.5) Nb–(2–5) Sn (at.%) alloys were investigated. Zr–(8–10.5) Nb–(2–4) Sn alloys …