Surface modification and bio-activation of bio-inert glasses through thermal oxidation

Abstract

Bioactivity and bio-compatibility are inversely related to the mechanical and chemical stability of bio-glass. In this research, we suggest a new method of conferring bio-activity on bio-inert glass through the addition of a small amount of FeO and oxidizing annealing, that is, surface modification, without degrading mechanical and chemical durability. The surface of iron-bearing bio-inert glasses can be successfully modified to form a Na2O-rich and SiO2-depletion layer on the surface, which allows the bio-activation sites to form and grow hydroxycarbonate apatite (HCA) crystals. After immersion in a solution of simulated body fluid (SBF) the surfaces show the formation of HCA and silica gel layers. We suggest that glasses with 2.30≤network connectivity (NC)≤2.61 and up to Na2O/CaO=1.25 can be modified into a bio-active surface by heat-treatment in an oxidizing atmosphere near the glass transition temperature. The reaction of the modified surface with SBF followed a process similar to typical bioactive glass. The thickness of the HCA surface layer after immersion in SBF for 7days increased with a decrease in the Na2O/CaO ratio of the mother glasses. Inducing a bio-activity to bio-inert glasses with a high SiO2 content and good mechanical and chemical durability through thermal oxidation is a new method to produce a bio-active glass.