Abstract

β-type low elastic modulus alloys of the Ti–Nb–Zr system have recently attracted much attention for both orthopedic and dental applications. In the present study, meta-stable β alloys of Ti–35Nb–xZr with different Zr contents were developed. The effect of Zr content on the microstructure, mechanical properties and cell attachment was investigated. It was found that the addition of Zr improved the tensile strength and elongation of Ti–35Nb–xZr alloys, and simultaneously reduced the elastic modulus. Moreover, the Zr element helped to stabilize the β phase. Cell culture work indicated that the addition of Zr enhanced the attachment and spreading of bone marrow stem cells. Cell attachment and spreading on the surface of titanium alloys were dominated not only by the wettability but also by the inherent biocompatibility of alloying elements. The peak-aged alloy with 5 wt% Zr had a highest tensile strength of 874 MPa, while its elastic modulus was only 65 GPa, presenting a much higher strength/modulus ratio than Ti–6Al–4V. The Ti–35Nb–5Zr alloy exhibited a great potential for orthopedic and dental applications.

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