Surface and mechanical properties of modified porous titanium scaffold

Abstract

The bioinertness makes surface treatments essential to improve the bioactivity of porous titanium scaffold, and surface treatment might affect their mechanical properties. So finding an optimum condition lying between bioactivity and mechanical properties seems to be curial. In this research, the effect of the time of the thermal oxidation at 600 degrees C on apatite formation and mechanical properties of the porous titanium scaffold was studied. The results of thin film X-ray diffraction and Raman spectroscopy indicated that the surface of heat treated samples up to 480 min was mainly covered by rutile. Also, wettability measurement and in vitro apatite formation ability assessment indicated that hydrophilicity and apatite formation ability of titanium surface could be increased with enhancing the time of heat treatment up to 240 min. While the mechanical properties of porous titanium scaffold had no significant change upon heating up to 240 min, further heating caused the reduction of mechanical properties. So, due to the mechanical properties of the porous titanium scaffold, the optimum time of thermal oxidation at 600 degrees C in atmospheric condition was 240 min for the surface treatment of the porous titanium scaffold. (C) 2017 Elsevier B.V. All rights reserved.