Biomedical titanium alloys with Young's moduli close to that of cortical bone
Biomedical titanium alloys with Young's moduli close to that of cortical bone, ie, low Young's
modulus titanium alloys, are receiving extensive attentions because of their potential in …
modulus titanium alloys, are receiving extensive attentions because of their potential in …
Design and development of metallic biomaterials with biological and mechanical biocompatibility
M Niinomi - Journal of Biomedical Materials Research Part A, 2019 - Wiley Online Library
In the present article, the recent trends in the research and development of metallic
biomaterials are discussed with focus on the results obtained by the author's group. The …
biomaterials are discussed with focus on the results obtained by the author's group. The …
Design of high strength and wear-resistance β-Ti alloy via oxygen-charging
XQ Wang, YS Zhang, WZ Han - Acta Materialia, 2022 - Elsevier
Titanium (Ti) is a promising biomedical material due to its superior corrosion resistance, low
elastic modulus and favorable biocompatibility. Nevertheless, Ti faces a dilemma because of …
elastic modulus and favorable biocompatibility. Nevertheless, Ti faces a dilemma because of …
Deformation mechanism of ω-enriched Ti–Nb-based gum metal: Dislocation channeling and deformation induced ω–β transformation
Gum metal, a class of multifunctional β titanium alloys, has attracted much attention in the
past decade due to its initially-proposed dislocation–free deformation mechanism based on …
past decade due to its initially-proposed dislocation–free deformation mechanism based on …
Achieving high strength and low elastic modulus in interstitial biomedical Ti–Nb–Zr–O alloys through compositional optimization
High strength and low elastic modulus are critical properties of biomedical titanium alloys for
manufacturing of load-bearing orthopaedic implants. Single phase beta Ti alloys can …
manufacturing of load-bearing orthopaedic implants. Single phase beta Ti alloys can …
[HTML][HTML] Eliminating porosity defects, promoting equiaxed grains and improving the mechanical properties of additively manufactured Ti-22V-4Al with super-transus …
High energy input additive manufacturing (AM) such as wire-based directed energy
deposition technologies are capable of high deposition rates but can result in coarse …
deposition technologies are capable of high deposition rates but can result in coarse …
Increasing strength of a biomedical Ti-Nb-Ta-Zr alloy by alloying with Fe, Si and O
Low-modulus biomedical beta titanium alloys often suffer from low strength which limits their
use as load-bearing orthopaedic implants. In this study, twelve different Ti-Nb-Zr-Ta based …
use as load-bearing orthopaedic implants. In this study, twelve different Ti-Nb-Zr-Ta based …
Fabrication of high-strength Ti materials by in-process solid solution strengthening of oxygen via P/M methods
B Sun, S Li, H Imai, T Mimoto, J Umeda… - Materials Science and …, 2013 - Elsevier
The applications of Ti and its alloys are limited to high-performance products because of the
expensive material cost and poor plastic formability. In order to develop a cost-effective …
expensive material cost and poor plastic formability. In order to develop a cost-effective …
Fabrication of low-cost beta-type Ti–Mn alloys for biomedical applications by metal injection molding process and their mechanical properties
Titanium and its alloys are suitable for biomedical applications owing to their good
mechanical properties and biocompatibility. Beta-type Ti–Mn alloys (8–17 mass% Mn) were …
mechanical properties and biocompatibility. Beta-type Ti–Mn alloys (8–17 mass% Mn) were …
Superelastic metastable Ti-Mo-Sn alloys with high elastic admissible strain for potential bio-implant applications
The demand for titanium alloys simultaneously having high elastic admissible strain and
large recovery strain for bio-implant applications is increasing. Ni-free Ti-based shape …
large recovery strain for bio-implant applications is increasing. Ni-free Ti-based shape …