Publications Repository - Gdańsk University of Technology

Titanium and its alloys are often used for long-term implants after their surface treatment. Such surface modification is usually performed to improve biological properties but seldom to increase corrosion resistance. This paper presents research results performed on such metallic materials modified by a variety of techniques: direct voltage anodic oxidation in the presence of fluorides, micro-arc oxidation (MAO), pulse laser treatment, deposition of chitosan, biodegradable Eudragit 100 and poly(4-vinylpyridine (P4VP), carbon nanotubes, nanoparticles of TiO2, and chitosan with Pt (nano Pt) and polymeric dispersant. The open circuit potential, corrosion current density, and potential values were determined by potentiodynamic technique, and microstructures of the surface layers and coatings were characterized by scanning electron microscopy. The results show that despite the applied modifications, the corrosion current density still appears in the region of very low values of some nA/cm2. However, almost all surface modifications, designed principally for the improvement of biological properties, negatively influence corrosion resistance. The reasons for observed effects can vary, such as imperfections and permeability of some coatings or accelerated degradation of biodegradable deposits in simulated body fluids during electrochemical testing. Despite that, all coatings can be accepted for biological applications, and such corrosion testing results are presumed not to be of major importance for their applications in medicine.

Authors

• dr inż. Łukasz Pawłowski link open in new tab ,
• dr inż. Magda Rościszewska link open in new tab ,
• dr inż. Majkowska-marzec Beata,
• dr inż. Magdalena Jażdżewska link open in new tab ,
• dr inż. Michał Bartmański link open in new tab ,
• prof. dr hab. inż. Andrzej Zieliński link open in new tab ,
• Natalia Tybuszewska link open in new tab ,
• Pamela Samsel link open in new tab