Journal
JOURNAL OF MATERIALS ENGINEERING AND PERFORMANCE
Volume 22, Issue 9, Pages 2656-2664Publisher
SPRINGER
DOI: 10.1007/s11665-013-0555-6
Keywords
biomaterials; electron microscopy; heat treating; mechanical testing; rolling; titanium
Categories
Funding
- Natural Science and Engineering Research Council of Canada
- Ministry of Education and Science of the Russian Federation
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In this work, the ternary Ti-19.7Nb-5.8Ta (at.%) alloy for biomedical applications was studied. The ingot was manufactured by vacuum arc melting with a consumable electrode and then subjected to hot forging. Specimens were cut from the ingot and processed by cold rolling with e = 0.37 of logarithmic thickness reduction and post-deformation annealing (PDA) between 400 and 750 A degrees C (1 h). Selected samples were subjected to aging at 300 A degrees C (10 min to 3 h). The influence of the thermomechanical processing on the alloy's structure, phase composition, and mechanical and functional properties was studied. It was shown that thermomechanical processing leads to the formation of a nanosubgrained structure (polygonized with subgrains below 100 nm) in the 500-600 A degrees C PDA range, which transforms to a recrystallized structure of beta-phase when PDA temperature increases. Simultaneously, the phase composition and the beta A -> A I +/- aEuro(3) transformation kinetics vary. It was found that after conventional cold rolling and PDA, Ti-Nb-Ta alloy manifests superelastic and shape memory behaviors. During aging at 300 A degrees C (1 h), an important quantity of randomly scattered equiaxed omega-precipitates forms, which results in improved superelastic cyclic properties. On the other hand, aging at 300 A degrees C (3 h) changes the omega-precipitates' particle morphology from equiaxed to elongated and leads to their coarsening, which negatively affects the superelastic and shape memory functional properties of Ti-Nb-Ta alloy.
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