Nanostructured Ti-based multi-component alloys with potential for biomedical applications.

Authors :: He G
Eckert J
Dai QL
Sui ML
Löser W
Hagiwara M
Ma E
Source :: Biomaterials [Biomaterials] 2003 Dec; Vol. 24 (28), pp. 5115-20.
Publication Year :: 2003
Abstract: A group of Ti(60)Cu(14)Ni(12)Sn(4)M(10) (M=Nb, Ta, Mo) alloys was prepared using arc melting and copper mold casting. The as-prepared alloys have a composite microstructure containing a micrometer-sized dendritic beta-Ti(M) phase dispersed in a nanocrystalline matrix. These new alloys exhibit a low Young's modulus in the range of 59-103 GPa, and a high yield strength of 1037-1755 MPa, together with large plastic strains. The combination of high strength and low elastic modulus offers potential advantages in biomedical applications.

Subjects :: Alloys chemical synthesis
Biocompatible Materials chemical synthesis
Biomedical Technology instrumentation
Biomedical Technology methods
Elasticity
Hot Temperature
Manufactured Materials analysis
Molecular Conformation
Surface Properties
Alloys chemistry
Biocompatible Materials chemistry
Materials Testing
Nanotechnology instrumentation
Nanotechnology methods
Titanium chemistry

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