Abstract
The correct relationship between implant and tissue environment provides a properly prepared surface of a medical device. The combination of advantages of metal implants with the required biocompatibility is achieved through various methods of surface treatment such as: electrochemical polishing, chemical passivation, preparation of oxide coatings obtained with the sol-gel method. The relatively short history of use of silica layers in biomedical applications transfers into a small amount of literature relating to the electrochemical properties of these layers. Therefore, the authors proposed in the work forming a silica layer of the established technological parameters on surface of the 316L stainless steel. In order to determine the usefulness of this technology electrochemical impedance spectroscopy studies were performed. Furthermore, corrosion resistance tests by means of the potentiodynamic method were also carried out. The obtained results were the basis for optimization of technological conditions for deposition of silica layers on the 316L steel surface.
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References
Areva, S., Aaritalo, V., Tuusa, S., Jokinen, M., Linden, M., Peltola, T.: Sol-gel-derived TiO2-SiO2 implant coatings for direct tissue attachment. Journal of Materials Science, Materials Medicine 18, 1633–1642 (2007)
Huan, Z., Chang, J.: Study on physicochemical properties and in vitro bioactivity of tricalcium silicate-calcium carbonate composite bone cement. Journal of Materials Science, Materials Medicine 19, 2913–2918 (2008)
Patel, A., Knowles, J.C.: Investigation of silica-iron-phosphate glasses for tissue engineering. Journal of Materials Science, Materials Medicine 17, 937–944 (2006)
Zhao, W., Chang, J., Wang, J., Zhai, W., Wang, Z.: In vitro bioactivity of novel tricalcium silicate ceramics. J. Materials Science, Materials Medicine 18, 917–923 (2007)
Karasiński, P., Gondek, E., Drewniak, S., Kityk, I.V.: Nano-sized blue spectra shift in sol-gel derived mesoporous titania films. Journal of Sol-Gel Science and Technology 61, 355–361 (2012)
Klein, L.C.: Sol-gel optics, processing and application. Kluwer Academic Publishers (1994)
Brinker, C.J., Scherer, G.W.: Sol-gel science. Academic Press, Incorporated, San Diego (1990)
Karasiński, P.: Sol-gel derived optical waveguide films for planar sensors with phase modulation. Optica Applicata 34(4), 467–475 (2004)
Biswas, R.G., Sanders, R.D.: The Effects of a CeO2 Coating on the Corrosion Parameters of Type 304 Stainless Steel. Journal of Materials Engineering and Performance 7, 727–732 (1998)
Xiao-kui, Y., Qing, L., Jun-ying, H., Xian-kang, Z., Shi-yan, Z.: The electrochemical corrosion behavior of sealed Ni-TiO2 composite coating for sintered NdFeB magnet. Journal Applied Electrochemistry 40, 39–47 (2010)
ASTM F746-04: Standard Test Method for Pitting or Crevice Corrosion of Metallic Surgical Implant Materials (2009)
Przondziono, J., Walke, W.: Influence of the type of medical sterilisation on electrochemical properties of passive layer created on X10CrNi 18-8 steel. Solid State Phenomena 212, 141–144 (2014)
Kajzer, W., Kajzer, A.: Badania potencjodynamiczne i impedancyjne implantów do leczenia zniekształceń przedniej ściany klatki piersiowej. Przegląd Elektrotechniczny 12, 275–279 (2013)
Kajzer, W., Chrzanowski, W., Marciniak, J.: Corrosion resistance of Cr-Ni-Mo steel intended for urological stents. Int. J. Microstructure and Materials Properties 2(2), 188–201 (2007)
Dziekońska, M., Ziębowicz, A., Ziębowicz, B., Dobrzański, L.A.: Corrosion resistance of neodymium composite materials reinforced with metal powders. Archives of Materials Science and Engineering 58, 137–145 (2012)
Basiaga, M., Popik, P., Paszenda, Z., Pochrząst, M.: The research of electrochemical properties of silica layers used in medical devices intended for contact with blood. Przegląd elektrotechniczny (Electrical Review) 12(R 89), 374–377 (2013)
Basiaga, M., Walke, W., Paszenda, Z., Karasiński, P.: Research on electrochemical properties SiO2 layer, intended for contact with blood, deposited by sol-gel method. European Cells and Materials 26(6), 157 (2013)
Walke, W., Paszenda, Z., Basiaga, M., Karasiński, P.: SiO2 layer deposited by sol-gel method on the AISI 316L for contact with blood. Journal of Achievements in Materials and Manufacturing Engineering 56(2), 75–82 (2013)
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Walke, W., Paszenda, Z., Basiaga, M., Karasiński, P., Kaczmarek, M. (2014). EIS Study of SiO2 Oxide Film on 316L Stainless Steel for Cardiac Implants. In: Piętka, E., Kawa, J., Wieclawek, W. (eds) Information Technologies in Biomedicine, Volume 4. Advances in Intelligent Systems and Computing, vol 284. Springer, Cham. https://doi.org/10.1007/978-3-319-06596-0_38
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DOI: https://doi.org/10.1007/978-3-319-06596-0_38
Publisher Name: Springer, Cham
Print ISBN: 978-3-319-06595-3
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