Surface Modification of Titanium Utilizing a Repassivation Reaction in Aqueous Solutions

Abstract: The surface modification of titanium utilizing repassivation reaction was attempted. The original surface oxide film on titanium plates were mechanically removed under immersion in water and Hanks' solutions with pH 5.0 and 7.4 followed by repassivation or regeneration of surface oxide film in the same solutions. Then the surface-modified titanium plates were immersed in Hanks' solution (pH 7.4) up to 604.8 ks. Their surface was analyzed with scanning electron microscopy with energy dispesive X-ray spectroscop… Show more

“…Therefore, surface treatments that do not cause callus formation are necessary for the safe use of Ti alloy devices. It has been reported that zirconium (Zr) forms zirconium phosphate but not calcium phosphate (Hanawa et al 1992(Hanawa et al , 2002b. The coating of Zr inhibits the formation of calcium phosphate on Ti ).…”

An overview of biofunctionalization of metals in Japan

“…Therefore, surface treatments that do not cause callus formation are necessary for the safe use of Ti alloy devices. It has been reported that zirconium (Zr) forms zirconium phosphate but not calcium phosphate (Hanawa et al 1992(Hanawa et al , 2002b. The coating of Zr inhibits the formation of calcium phosphate on Ti ).…”

An overview of biofunctionalization of metals in Japan

Durability of adhesive bonding of titanium in radiation and aerospace environments

High-performance nanoadhesive bonding of titanium for aerospace and space applications