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Electrochemical behavior of Co-Cr-W-Ni alloy with passive layer

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the paper the results of corrosion resistance and chemical composition investigations of passive layer formed on the im-plants surface made of Co-Cr-W-Ni alloy used in interventional cardiology have been presented. Corrosion resistance has been tested in the solution simulating environment of human blood at temperature 37+-1°C. Particularly, the investigations of crevice and pitting corrosion resistance have been realized with taking into account the implantation technique of vascular stents. Chemical composition investigations of the passive layer have been carried out with the use of X-ray Photoelectron Spectroscopy (XPS). The results of preliminary tests pointed out on the usefulness of surface treatment of stents made of Co-Cr-W-Ni alloy.
Rocznik
Strony
179--188
Opis fizyczny
Bibliogr. 25 poz., rys., tab.
Twórcy
autor
autor
  • Silesian University of Technology, Institute of Engineering Materials and Biomaterials, Gliwice, Poland
Bibliografia
  • [1] Paszenda Z.: Issues of metal materials used for implants in interventional cardiology. Engineering of Biomaterials, 2002, 21, pp. 3-9.
  • [2] Paszenda Z.: Kształtowanie własności fizykochemicznych stentów wieńcowych ze stali Cr-Ni-Mo do zastosowań w kardiologii zabiegowej. Wydawnictwo Politechniki Śląskiej, Gliwice 2005.
  • [3] Paszenda Z., Duda B., Wilczek P.: Investigations of haemocompatibility of the passive carbon coatings used for improvement of the coronary stents' surfaces. Engineering of Biomaterials, 2003, 26, pp. 3-11.
  • [4] Paszenda Z., Tyrlik-Held J.: Forming the physicochemical properties of coronary stents surface. 13th Conference of the European Society of Biomechanics ESB2002, 1-4.09.2002, Wrocław, pp. 539-540.
  • [5] Paszenda Z., Tyrlik-Held J.: Coronary stents with passive and carbon layers. Proceedings of the 17th European Conference on Biomaterials ESB2002, 11-14.09.2002, Barcelona, P89.
  • [6] Marciniak J.: Biomateriały. Wydawnictwo Politechniki Śląskiej, Gliwice 2002.
  • [7] Sigwart D., Puel J. et al.: Intraluminal stents to prevent occlusion and restenosis after trans luminal angioplasty. N. Engl 1. Med 316, (1987), pp. 701-706.
  • [8] Christensen K, Larsson R. et al.: Heparin coating of the stent graft - effects on plateles, coagulation and complement activation. Biomaterials, 22, 4, (2001), pp. 349-355.
  • [9] Stefanidis L.K., Tolis V. A., Sionis D. G. Michalis L. K: Development in Intracoronary Stents. Hellenic Journal of Cardiology - HJC, 43, 2002, s. 63-67.
  • [10] Bertrand O., Sipehia R., Mongrain R., Rodes J., Tardif J.: Biocompatibility aspects of new stent technology. Journal of the American College of Cardiology, 32,1998, pp. 562 - 571.
  • [11] Paszenda Z., Tyrlik-Held 1., Nawrat Z., Żak J., Wilczek J.: Usefulness of passive-carbon layer for implants applied in interventional cardiology. Journal of Materials Processing Technology,2004, 157-158C, pp. 399-404.
  • [12] Norma: ASTM G5-94:1999. Standard reference test method for making potentiostatic and potentiodynamic anodic polarization measurements.
  • [13] Norma: ASTM F-746-81:1999. Standard test method for pitting or corrosion of metallic surgical implant materials.
  • [14] Kajzer W., Kaczmarek M., Marciniak J.: Biomechanical analysis of stent - oesophagus system. The Worldwide Congress of Materials and Manufacturing Engineering and Technology COMMENT'2005, Journal of Materials Processing Technology Vol 162-163, 15 May 2005, pp. 196-202.
  • [15] Walke W., Kajzer W., Kaczmarek M., Marciniak J.: Analiza stanu naprężeń i przemieszczeń w warunkach angioplastyki wieńcowej. Proceedings of the 11th International Scientific Conference "Achievements in Mechanical and Materials Engineering 2002", Gliwice-Zakopane, 2002 s.595-600.
  • [16] Walke W., Paszenda Z., Marciniak J.: Optymalizacja cech geometrycznych stentu wieńcowego z wykorzystaniem metody elementów skończonych. Proceeding of the 12th International Scientific Conference "Achievements in Mechanical and Materials Engineering 2003", Gliwice-Zakopane, 2003, s.1011-1016.
  • [17] Walke W., Paszenda Z., Filipiak J.: Experimental and numerical biomechanical analysis of vascular stent. Journal of Materials Processing Technology, COMMENT'2005, Journal of Materials Processing Technology VoI164-165, 15 May 2005, pp. 1263-1268.
  • [18] Paszenda Z., Tyrlik-Held J., Marciniak J., Włodarczyk A.: Badania odporności korozyjnej stali Cr-Ni-Mo z przeznaczeniem na implanty stosowane w kardiologii zabiegowej. Proceedings of the 9th International Scientific Conference "Achievements in Mechanical and Materials Engineering 2000", Gliwice-Sopot-Gdańsk, 2000, s.425-428.
  • [19] Paszenda Z., Tyrlik - Held J.: Badania odporności korozyjnej stentów wieńcowych ze stali Cr-Ni-Mo. Proceedings of the 10th Jubilee International Scientific Conference "Achievements in Mechanical and Materials Engineering 2001", Gliwice-Kraków-Zakopane, 2001, s.453-460.
  • [20] Paszenda Z., Tyrlik-Held J.: Forming the physicochemical properiteis of coronary stents surface. 13th Conference of the European Society of Biomechanics ESB2002, 1-4.09.2002, Wrocław, pp.539-540.
  • [21] Paszenda Z., Tyrlik-Held J.: Coronary stents with passive and carbon layers. Proceedings of the 17th European Conference on Biomaterials ESB2002, 11-14.09.2003. Barcelona, pp.89.
  • [22] Krauze, A. Ziębowicz, J. Marciniak, J. : Corrosion resistance of intramedullary nails used in elastic osteosynthesis of children. The Worldwide Congress of Materials and Manufacturing Engineering and Technology COMMENT'2005. Journal of Materials Processing Technology Vol. 162-163, 15 May 2005, pp.209-214.
  • [23] Krauze A., Kajzer W., Marciniak J.: Charakterystyka biomechaniczna układu gwoździe śródszpikowe - kość udowa z wykorzystaniem MES. Proceeding of the 12th International Scientific Conference "Achievements in Mechanical and Materials Engineering 2003", Gliwice-Zakopane, 2003, s.533-538.
  • [24] Marciniak J., Ziębowicz A., Krauze A.: Wyznaczenie charakterystyki biomechanicznej układu druty śródszpikowe - kość w symulowanych warunkach laboratoryjnych. Proceedings of the 9th International Scientific Conference "Achievements in Mechanical and Materials Engineering 2000", Gliwice-Sopot-Gdańsk, 2000, s.367-370.
  • [25] Szewczenko J., Marciniak J., Chrzanowski W.: Uszkodzenia korozyjne implantów ze stali Cr-Ni-Mo w warunkach elektrostymulacji prądem zmiennym. Proceedings of the 10th Jubilee International Scientific Conference "Achievements in Mechanical and Materials Engineering 2001", Gliwice-Kraków-Zakopane, 2001, s.543-548.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BPG5-0027-0022
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