Surface analysis and corrosion resistance of a new titanium base alloy in simulated body fluids

A new quaternary Ti–20Nb–10Zr–5Ta alloy with β-near microstructure was obtained. Its native passive film composition and its modification and corrosion resistance after 2000 immersion hours in simulated biofluids were studied. The native film on the alloy surface contains TiO2, Nb2O5, ZrO2, Ta2O5 protective oxides as was demonstrated by XPS. After 2000 h, XPS revealed the presence of same oxides and calcium, phosphorous ions deposited from physiological solutions as hydroxyapatite. In Ringer and Ringer–Brown solutions, the new alloy presented low corrosion rates. Impedance data exhibited a passive film with two layers: an inner, barrier layer and an outer, porous layer.

Graphical abstractFigure optionsDownload full-size imageDownload as PowerPoint slideHighlights► The native film on the alloy surface contains TiO2, Nb2O5, ZrO2, Ta2O5 as was demonstrated by XPS. ► After 2000 h, XPS revealed the same oxides and calcium, phosphorous ions deposited as hydroxyapatite. ► Impedance data exhibited a passive film with two layers: an inner, barrier and an outer, porous. ► In Ringer and Ringer–Brown solutions, the new alloy presented low corrosion rates.