Investigation on Mechanical Compatibility Matching for Biomedical Titanium Alloys

Zhen Tao Yu; Lian Zhou; Lijuan Luo; Maohong Fan; Yanyan Fu

doi:10.4028/www.scientific.net/KEM.288-289.595

Paper Titles

Heating NiTi Stent in Magnetic Fields and the Thermal Effect on Smooth Muscle Cells
p.579

Control Release of Paclitexel-Coated 316L Cardiovascular Stent In Vitro
p.583

The Studies on Biocompatibility of Self-Expanding NiTi Stent and Apoptosis of Smooth Muscle Cells after Stenting
p.587

Fabrication of Fully-Porous and Porous-Surfaced Ti-6Al-4V Implants by Electro-Discharge-Sintering of Spherical Ti-6Al-4V Powders and Their Osseointegration Ability
p.591

Investigation on Mechanical Compatibility Matching for Biomedical Titanium Alloys
p.595

Bioactive NiTi Implants Used for Bone Repairing Applications
p.599

Torsion Property and Cyclic Fatigue Fracture Behavior of Nickel-Titanium Endodontic Instruments
p.603

Fretting Damage of Human Cortical Bone in Transverse Orientation against Titanium
p.607

Fabrication of Porous Titanium with Biomechanical Compatibility
p.611

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Investigation on Mechanical Compatibility Matching for Biomedical Titanium Alloys

Abstract:

The effects of alloying elements such as Mo, Sn, Zr, Nb, deforming-rate, solid solution and aging treatment on mechanical property and microstructure of near βtype biomedical Ti alloys based on Ti-Nb-Zr system were studied. The Influential factors and their solution were discussed to keep matching of strength, elastic modulus, plasticity and toughness. Ti-Zr-Mo-Nb and Ti-Zr-Sn-Mo-Nb alloy systems possess excellent biocompatibility, lower elastic modulus, higher strength, finer plasticity and fracture toughness matching by means of solid solution and ageing treatment which are much more suitable for surgical implant and orthopedic materials.