Protein adsorption, cell viability and corrosion properties of Ti6Al4V alloy treated by plasma oxidation and anodic oxidation
来源期刊:International Journal of Minerals Metallurgy and Materials2020年第9期
论文作者:Hojjat Ghahramanzadeh Asl Ay?e Ak
文章页码:1269 - 1280
摘 要:The hardness, wettability, and electrochemical properties of Ti6Al4V alloy surfaces treated with anodic oxidation and plasma oxidation as well as the viabilities of the different cell lines on the obtained surfaces were investigated. The anodic oxidation was performed for 10 min under 100 V potential, and it resulted in a 0.95 μm thick nanoporous anatase-TiO2 structure. On the other hand, plasma oxidation was carried out at 650℃ for 1 h and resulted in a dense rutile-TiO2 structure with a thickness of 1.2 μm. While a hardness of HV0.025 823 and roughness of ~220 nm were obtained by plasma oxidation, those obtained by anodic oxidation were HV0.025 512 and ~130 nm, respectively. The anodic oxidation process created a more hydrophilic surface with a contact angle of 87.2°. Both oxidation processes produced similar properties in terms of corrosion behavior and showed better resistance than the as-received state in a certain range of potential. Moreover, the surface treatments led to no significant change in the protein adsorption levels, which indicates that the difference in viability between the osteoblast and fibroblast cells was not due to the difference in surface protein adsorption. Given all the factors, the surfaces obtained by anodic oxidation treatment revealed higher cell viability than those obtained by plasma oxidation(p = 0.05).
Hojjat Ghahramanzadeh Asl2,Ay?e Ak3
2. Department of Mechanical Engineering,Karadeniz Technical University3. Vocational School of Health Services,Medical Imaging Techniques Programme,Kocaeli University
摘 要:The hardness, wettability, and electrochemical properties of Ti6Al4V alloy surfaces treated with anodic oxidation and plasma oxidation as well as the viabilities of the different cell lines on the obtained surfaces were investigated. The anodic oxidation was performed for 10 min under 100 V potential, and it resulted in a 0.95 μm thick nanoporous anatase-TiO2 structure. On the other hand, plasma oxidation was carried out at 650℃ for 1 h and resulted in a dense rutile-TiO2 structure with a thickness of 1.2 μm. While a hardness of HV0.025 823 and roughness of ~220 nm were obtained by plasma oxidation, those obtained by anodic oxidation were HV0.025 512 and ~130 nm, respectively. The anodic oxidation process created a more hydrophilic surface with a contact angle of 87.2°. Both oxidation processes produced similar properties in terms of corrosion behavior and showed better resistance than the as-received state in a certain range of potential. Moreover, the surface treatments led to no significant change in the protein adsorption levels, which indicates that the difference in viability between the osteoblast and fibroblast cells was not due to the difference in surface protein adsorption. Given all the factors, the surfaces obtained by anodic oxidation treatment revealed higher cell viability than those obtained by plasma oxidation(p = 0.05).
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