Electrochemical corrosion of titanium and titanium-based alloys

“…Comparing the impedance spectra from the Ti6Al4V alloy and from the pure titanium, it is possible to suppose they have distinct electric behaviors 14,23 . For pure titanium, two time constants are observed, arisen from the internal (compact) and external (porous) oxide layers according to the bi-layer oxide model 20,32 .…”

“…Kuphasuk et al studied the electrochemical behavior of Ti, Ti6Al4V, NiTi and three other titanium alloys at 37°C in Ringer's solution 14 . Electron diffraction patterns indicated that all titanium alloys were covered mainly with rutile-type oxide after corrosion tests and the Ti and Ti5Al2.5Fe were the most resistant to corrosion.…”

Electrochemical Stability and Bioactivity Evaluation of Ti6Al4V Surface Coated with Thin Oxide by EIS for Biomedical Applications

“…Comparing the impedance spectra from the Ti6Al4V alloy and from the pure titanium, it is possible to suppose they have distinct electric behaviors 14,23 . For pure titanium, two time constants are observed, arisen from the internal (compact) and external (porous) oxide layers according to the bi-layer oxide model 20,32 .…”

“…Kuphasuk et al studied the electrochemical behavior of Ti, Ti6Al4V, NiTi and three other titanium alloys at 37°C in Ringer's solution 14 . Electron diffraction patterns indicated that all titanium alloys were covered mainly with rutile-type oxide after corrosion tests and the Ti and Ti5Al2.5Fe were the most resistant to corrosion.…”

Electrochemical Stability and Bioactivity Evaluation of Ti6Al4V Surface Coated with Thin Oxide by EIS for Biomedical Applications

“…Commercially pure titanium (CP Ti) has been recognized in dentistry for its biocompatibility, good mechanical properties and corrosion resistance (1)(2)(3). Due to this, the application of CP Ti in prosthodontics dates back to the 1980s and the works of Ida et al (4).…”

Effects of Wire EDM on the Microstructure of P/M Titanium Samples

“…As interações entre o material metálico e o ambiente aumentam as reações eletroquímicas e um dos problemas associados com o estudo de corrosão nas ligas odontológicas é que o conhecimento sobre o ambiente eletroquímico da cavidade bucal é limitado (KUPHASUK, et al, 2001), uma vez que este ambiente sofre grandes flutuações de temperatura, presença de umidade, alteração de pH devido à dieta e variações na presença de oxigênio. Portanto, os metais e ligas que são usados na cavidade bucal devem resistir à umidade, alterações de temperatura (0-70 °C) e de pH (pH=2 -pH=11) que ocorre durante a decomposição dos alimentos.…”

Avaliação da resistência à corrosão de titânio comercialmente puro submetido à desinfecção química e polarização em salivas artificiais com diferentes pHs