Microstructure evolution of Ti-30Nb-(4Sn) alloys during classical and step-quench aging heat treatments

Microstructure evolution of Ti-30Nb-(4Sn) alloys during classical and step-quench aging heat treatments

Recent studies involving step-quench (SQ) heat treatments have shown that, unlike classical quench-and-aging (QA) heat treatments, SQ route can favour precipitation mechanisms that are strongly dependent on decomposition of the parent β-phase. In this work, Ti-30Nb and Ti-30Nb-4Sn (wt-%) alloys were...

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Veröffentlicht in:Materials science and technology 2017-03, Vol.33 (4), p.400-407
Hauptverfasser: Salvador, C. A. F., Opini, V. C., Lopes, E. S. N., Caram, R.
Format: Artikel
Sprache:eng
Schlagworte:
Aging heat treatments
Biomaterials
Microstructure control
Phase transformations
Titanium alloys
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Zusammenfassung:Recent studies involving step-quench (SQ) heat treatments have shown that, unlike classical quench-and-aging (QA) heat treatments, SQ route can favour precipitation mechanisms that are strongly dependent on decomposition of the parent β-phase. In this work, Ti-30Nb and Ti-30Nb-4Sn (wt-%) alloys were subjected to cold-working, recrystallisation and then to either classical or SQ heat treatments at 400°C. Among QA samples, ω-phase is formed in both alloys during the heating ramp. By the SQ route, we found extensive isothermal ω-phase precipitation in Ti-30Nb during aging. On the other hand, a complete suppression of ω-phase in Ti-30Nb-4Sn was observed, thus, α-phase precipitation could take place improving hardness while still preserving a low elastic modulus.
ISSN:0267-0836
1743-2847
DOI:10.1080/02670836.2016.1216030