Impact of Sandblasting and Plasma Electrolytic Oxidation on Surface Quality of Dental Implants
L.I. Zaynullina, R.G. Farrakhov, I.A. Ramazanov, R.Z. Khamatdinov, V.S. Dyuryagin, E.V. Parfenov

TL;DR
This paper studies how sandblasting and plasma electrolytic oxidation affect the surface quality of dental implants made of titanium alloys.
Contribution
The study introduces a method to reduce residual aluminum in dental implants through plasma electrolytic oxidation after sandblasting.
Findings
Sandblasting with Al2O3 results in a residual aluminum weight fraction of 2.67±0.79% in the implant surface.
Plasma electrolytic oxidation reduces the aluminum weight fraction to 0.33±0.08% and improves corrosion resistance.
The combination of sandblasting and plasma electrolytic oxidation is effective for biocompatible surface modification.
Abstract
Titanium alloys have high biocompatibility, and, therefore, they are widely used in the production of implantable medical devices. Implants, in turn, must have certain surface properties for a positive osseointegration. To improve biocompatibility, as well as cell viability, numerous implant surface modifications have been proposed in order to improve topography, roughness parameters, and surface layer chemical and phase compositions. The most common type of surface treatment for dental implants involves sandblasting with aluminum oxide Al2O3 (corundum). However, aluminum is not a biocompatible element, and it can contribute to development of various diseases. Currently, the method of plasma electrolytic oxidation is being actively developed to ensure formation of a biocompatible TiO2-based oxide coating on the surface of titanium implants. The aim of the study was to establish the…
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Taxonomy
TopicsBone Tissue Engineering Materials · Dental materials and restorations · Dental Implant Techniques and Outcomes
