Microstructure and mechanical behavior of superelastic Ti–24Nb–0.5O and Ti–24Nb–0.5N biomedical alloys

Microstructure and mechanical behavior of superelastic Ti–24Nb–0.5O and Ti–24Nb–0.5N biomedical alloys

In this study, the microstructure and the mechanical properties of two new biocompatible superelastic alloys, Ti–24Nb–0.5O and Ti–24Nb–0.5N (at.%), were investigated. Special attention was focused on the role of O and N addition on α″ formation, supereleastic recovery and mechanical strength by comp...

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Bibliographic Details
Published in:Journal of the mechanical behavior of biomedical materials Vol. 9; pp. 83 - 90
Main Authors: Ramarolahy, A., Castany, P., Prima, F., Laheurte, P., Péron, I., Gloriant, T.
Format: Journal Article
Language:English
Published: Netherlands Elsevier Ltd 01-05-2012
Elsevier
Subjects:
Alloys
Alloys - chemistry
Biocompatibility
Biocompatible Materials - chemistry
Biomedical materials
Chemical engineering
Chemical Sciences
Deformation twinning
Dental Alloys - chemistry
Elasticity
Electrons
Materials Testing
Mechanical properties
Microscopy, Electron, Transmission - methods
Microstructure
Nickel - chemistry
Niobium - chemistry
Oxygen - chemistry
Scattering, Radiation
Stress induced martensite
Stress, Mechanical
Superelasticity
Surgical implants
Tensile Strength
Titanium
Titanium - chemistry
Titanium alloys
Titanium base alloys
Twinning
X-Ray Diffraction
Titanium alloys
Deformation twinning
Stress induced martensite
Superelasticity
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Summary:In this study, the microstructure and the mechanical properties of two new biocompatible superelastic alloys, Ti–24Nb–0.5O and Ti–24Nb–0.5N (at.%), were investigated. Special attention was focused on the role of O and N addition on α″ formation, supereleastic recovery and mechanical strength by comparison with the Ti–24Nb and Ti–26Nb (at.%) alloy compositions taken as references. Microstructures were characterized by optical microscopy, X-ray diffraction and transmission electron microscopy before and after deformation. The mechanical properties and the superelastic behavior were evaluated by conventional and cyclic tensile tests. High tensile strength, low Young’s modulus, rather high superelastic recovery and excellent ductility were observed for both superelastic Ti–24Nb–0.5O and Ti–24Nb–0.5N alloys. Deformation twinning was shown to accommodate the plastic deformation in these alloys and only the {332}〈113〉 twinning system was observed to be activated by electron backscattered diffraction analyses.
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ISSN:1751-6161
1878-0180
DOI:10.1016/j.jmbbm.2012.01.017