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Antibacterial Ti-Cu alloy with enhanced mechanical properties as implant applications

Changbo Yi, ZunYun Ke, Lei Zhang, Jun Tan, Yehua Jiang, Zhengyuan He

2020Materials Research Express42 citationsDOIOpen Access PDF

Abstract

Abstract The service life as hard tissue implantation for clinical application needs compatible mechanical properties, e.g. strength, modulus, etc, and certain self-healing in case of internal infection. Therefore, for sake of improving the properties of Ti-Cu alloy, the microstructure, mechanical properties, corrosion resistance and antibacterial properties of Ti- x Cu alloy ( x = 2, 5, 7 and 10 wt.%) prepared by Ar-arc melting followed by heat treatment were studied. The results show that the Ti-Cu alloy was mainly composed of α -Ti matrix and precipitated Ti 2 Cu phase. The Cu element mainly accumulates in the lamellar structure and forms the precipitated Ti 2 Cu phase. As the increase of Cu content, the lamellar Ti 2 Cu phase increases, the compressive strength and elastic modulus also were altered. The Ti-7Cu alloy exhibited the higher compressive strength (2169 MPa) and the lower elastic modulus (108 GPa) compared with other Ti-Cu alloys. The corrosion resistance of Ti- x Cu alloys increases with the increase of Cu content. When the Cu content was greater than 5 wt.%, the value of corrosion current density for Ti-Cu alloy was less than 1 μ A·cm −2 , which is also significantly lower than that of CP-Ti. The antibacterial test revealed that only the Ti-Cu alloy with 5 wt.% or greater Cu content could display a strong antibacterial rate against E. coli and S. aureus . Therefore, the prepared Ti-7Cu alloy via heat treatment showed excellent mechanical properties, corrosion resistance, and antibacterial properties, which would meet the replacement of human hard tissue and clinical applications.

Topics & Concepts

Materials scienceAlloyMicrostructureCorrosionLamellar structureTitanium alloyElastic modulusMetallurgyPhase (matter)Compressive strengthComposite materialModulusChemistryOrganic chemistryTitanium Alloys Microstructure and PropertiesAdvanced materials and compositesOrthopaedic implants and arthroplasty
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