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Physicochemical properties of fixation plates used in funnel chest treatment

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The paper presents physicochemical properties and biomechanical analysis of fixation plates made of Cr-Ni-Mo stainless steel used in the funnel chest treatment. Design/methodology/approach: The corrosion tests were realized by recording of anodic polarization curves with the use of the potentiodynamic method. The VoltaLab® PGP 201 system for electrochemical tests was applied. The numerical analysis was performed for: the stabilizer of 460 mm length, 16 mm width and 4.5 mm thickness, the stabilizer of 460 mm length, 16 mm width and 3.5 mm thickness, the stabilizer of 460 mm length, 16 mm width and 2.5 mm thickness. Findings: The tests showed that structure of the steel the plates were made of, met the PN-ISO 5832-1 standard. The surface damage is induced in the given deformation regions and is a potential reason of corrosion. The numerical analysis shows that stresses in plates didn’t exceed the yield point: for the stainless steel Rp0,2min = 590 MPa. Values of maximum displacements occuring in the stabilizing bar in the range of clinically acceptable displacements. Research limitations/implications: The obtained results are the basis for the optimization of physicochemical and mechanical properties of the metallic biomaterial. Practical implications: On the basis of the obtained results it can be stated that that stainless steel can be applied in the funnel chest treatment. Originality/value: The paper presents the influence of surface damage and stresses and displacement of plates used in the funnel chest treatment on the corrosion resistance.
Rocznik
Strony
151--154
Opis fizyczny
Bibliogr. 17 poz., rys., tab.
Twórcy
autor
  • Division of Biomedical Engineering, Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland
autor
  • Division of Biomedical Engineering, Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland
autor
  • Division of Biomedical Engineering, Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland
autor
  • Academic Center of Minimally Invasive Surgery of Adults and Children, 41-800 Zabrze, Poland
Bibliografia
  • [1] J. Bohosiewicz, G. Kudela, T. Koszutski: Results of Nuss procedures for the correction of pectus excavatum, European Jurnal of Pediatric Surgery 2005, Vol.15 No.1, pp. 6–10.
  • [2] K. A. Miller, D. J. Ostlie, K. Wade, B. Chaignaud, G. K. Gittes, W. M. Andrews, K. W. Ashcraft, R. J. Sharp, C. L. Snyder, G. W. Holocomb: Minimally Invasive Bar Repair for ‘Redo’ Correction of Pectus Excavatum. Jurnal of Pediatric Surgery No 7 July 2002, pp. 1090–1092.
  • [3] http://www.pectus.org
  • [4] National Institute of Clinical Excellence: Minimally intensive placement of pectus bar (also known as the ‘Nuss procedure’), Understanding NICE guidance – information for people considering the procedure and for the public, czerwiec 2003, pp. 4–10.
  • [5] M.L. Bentz, M.I. Rowe, E.S. Wiener: Improved sternal fixation in the correction of pediatric pectus excavatum. Annals of Plastic Surgery, Vol 32, No 6, June 1994, pp. 638-641.
  • [6] W. Kajzer, W. Chrzanowski, J. Marciniak: Corrosion resistance of Cr-Ni-Mo steel intended for urological stents. 11th International Scientific Conference on Contemporary Achievements in Mechanics, Manufacturing and Materials Science, Gliwice-Zakopane 2005.
  • [7] A. Krauze, A. Ziębowicz, J. Marciniak: 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.
  • [8] A. Krauze, W. Kajzer, J. Marciniak: Biomechanical characteristics of intramedullary nails – femur system with the use of FEM. Proceeding of the 12th International Scientific Conference „Achievements in Mechanical and Materials Engineering 2003”, Gliwice-Zakopane, 2003, pp. 533-538.
  • [9] W. Walke, Z. Paszenda, J. Marciniak: Corrosion resistance of Co-Cr-W-Ni alloy designer for implants used in operative cafdiology. Engineering of Biomaterials, no 47-53, (2005), pp. 96-99.
  • [10] W. Kajzer, J. Marciniak: Biomechanical FEM analysis of stent-urethra system. ESB 2005 - 19 th European Conference on Biomaterials (including the 4th Young Scientist Forum), Sorrento (Italy), 11-15.09.
  • [11] W. Kajzer, J. Marciniak: Biomechanical analysis of urological stent. XV Conference on Biomaterials in Medicine and Veterinary Medicine. Rytro, 13-16.10, pp. 141-143.
  • [12] W. Kajzer, M. Kaczmarek, J. Marciniak: 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.
  • [13] M. Kaczmarek, J. Marciniak: Determining biomechanical characteristics of POLFIX stabilizing–manipulating system with the use of finite elements method. STUSYM 2000, Zakopane 2000.
  • [14] PN - ISO 5832-1, Implants for surgery metallic materials, Part I: Wrought stainless steel, (1997).
  • [15] J. Marciniak: Perpectives of employing of the metallic biomaterials in the reconstruction surgery. Engineering of Biomaterials, no 1, 1997, pp. 12-20.
  • [16] J. Marciniak: Biomaterials, Edit by Silesian Univesity of Technology, Gliwice (2002), pp. 116, 219-229 (in polish).
  • [17] ISO 4967: 1979 (E). Steel - Micrographic determination of content of non - metallic inclusions - Micrographic method using.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-f6274f0f-165c-4452-8f59-363db56bde1c
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