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Influence of mechanical damage on corrosion resistance of plates used in funnel chest treatment

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The paper presents influence of mechanical surface damage on corrosion resistance of plates made of Cr-Ni-Mo stainless steel, used in funnel chest treatment. The surface of the steel was electrochemically polished and fitted. The surface damage is induced in the given deformation regions and is a potential reason of corrosion. The corrosion tests were realised by recording of anodic polarization curves with the use of the potentio-dynamic method. The VoltaLab® PGP 201 system for electrochemical tests was applied. Additionally, the tests showed that the structure of the steel the plates were made of, met the PN-ISO 5832-1 standard. On the basis of the obtained results it can be stated that that stainless steel can be applied in funnel chest treatment.
Rocznik
Tom
Strony
133--141
Opis fizyczny
Bibliogr. 22 poz., fig., tab.
Twórcy
autor
  • Zakład Inżynierii Materiałów Biomedycznych, Politechnika Śląska w Gliwicach
autor
autor
autor
Bibliografia
  • [1] BENTZ M.L., ROWE M.I., WIENER E.S.: Improved sternal fixation in the correction of pediatric pectus excavatum. Annals of Plastic Surgery, Vol 32, No 6, June 1994, pp. 638-641.
  • [2] BOHOSIEWICZ J., KUDELA G., KOSZUTSKI T.: Results of Nuss procedures for the correction of pectus excavatum, European Jurnal of Pediatric Surgery 2005, Vol.15, No.1, pp. 6–10.
  • [3] CZERNIK J., BOHOSIEWICZ J.: Children Surgery, Wydawnictwo Lekarskie PZWL, pp. 368–374, Warszawa, 2005 (in polish).
  • [4] DZIELICKI J. KORLACKI W. SITKIEWICZ T.: Nuss’es minimally invasive method in pectus excavatum treatment. Polski Przegląd Chirurgiczny 2000, 72, 6, pp. 524-530 (in polish).
  • [5] FRONKALSRUD E. W., DUNN J. C. Y., ATKINSON J. B.: Repair of Pectus Excavatum Deformities: 30 Years of Experience with 375 Patients, Annals of Surgery nr 3, pp. 443-448.
  • [6] FRONKALSRUD E. W., DUNN J. C. Y., ATKINSON J. B.: Repair of Pectus Excavatum and Crinatum in Adults, The American Journal of Surgery, nr 177, february 1999, pp. 121–124.
  • [7] KAJZER W., CHRZANOWSKI W., MARCINIAK J.: 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.
  • [8] KRAUZE A., ZIĘBOWICZ A., 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, pp. 209-214, 15 May 2005.
  • [9] MARCINIAK J.: Austenitic steel – the basic implantation material used in orthopaedic surgery. Ortopedia, Traumatologia, Rehabilitacja 2000, 3, pp. 52-58. (In polish)
  • [10] MARCINIAK J.: Biomaterials, Edit by Silesian Univesity of Technology, pp. 116, 219-229, 238-252, Gliwice 2002 (in polish).
  • [11] MARCINIAK J.: Perpectives of employing of the metallic biomaterials in the reconstruction surgery. Engineering of Biomaterials, No 1, 1997, pp. 12-20.
  • [12] MILLER K. A., OSTLIE D. J., WADE K., CHAIGNAUD B., GITTES G. K., ANDREWS W. M., ASHCRAFT K. W., SHARP R. J., SNYDER C. L., HOLOCOMB III G. W.: Minimally Invasive Bar Repair for ‘Redo’ Correction of Pectus Excavatum, Jurnal of Pediatric Surgery, pp. 1090–1092, No 7 July 2002.
  • [13] Norma ISO 4967: 1979 (E). Steel – Micrographic determination of content of non – metallic inclusions – Micrographic method using.
  • [14] NUSS D., KELLY R.E., CROITORU P., KATZ M.E.: A 10-year of minimally invasive technique for the correction of pectus excavatum. Journal of Pediatric Surgery, 1998, 33(4), pp. 545-552.
  • [15] PASZENDA Z., TYRLIK-HELD J., MARCINIAK J., WŁODARCZYK A.: Corrosion resistance of Cr-Ni-Mo steel intended for implants used in operative cardiology. Proceedings of the 9th International Scientific Conference „Achievements in Mechanical and Materials Engineering 2000”, pp. 425-428, Gliwice-Sopot-Gdańsk 2000.
  • [16] PASZENDA Z., TYRLIK-HELD J.: Corrosion resistance of coronary stents made of Cr-Ni-Mo steel. Proceedings of the 10th Jubilee International Scientific Conference „Achievements in Mechanical and Materials Engineering 2001”, pp. 453-460, Gliwice-Kraków-Zakopane, 2001.
  • [17] PN - ISO 5832-1, Implants for surgery metallic materials, Part I: Wrought stainless steel, (1997).
  • [18] SZEWCZENKO J., MARCINIAK J., CHRZANOWSKI W.: Corrosion damages of Cr-Ni-Mo steel implants in conditions of an alternating current electrostimulation. Proceedings of the 10th Jubilee International Scientific Conference „Achievements in Mechanical and Materials Engineering 2001”, pp. 543-548, Gliwice-Kraków-Zakopane 2001.
  • [19] SZEWCZENKO J., MARCINIAK J., CHRZANOWSKI W.: Corrosion of Cr-Ni-Mo steel implants in conditions of sinusoidal current electrostimulation. Proceedings of the 9th International Scientific Conference „Achievements in Mechanical and Materials Engineering 2000”, pp. 511-514, Gliwice-Sopot-Gdańsk 2000.
  • [20] Materiały reklamowe firmy MIKROMED.
  • [21] VARELA P. , HERRERA O. FIELBAUM O.: Pectus excavatum. Tratamiento con técnica mínimamente invasive. Rev. Chil. Pediatr. 2002, 73 (3), pp. 263-269.
  • [22] WATANABE Y., IWA T.: Surgical Correction of pectus excavatum for Adults and Adolescents. Japanese Journal of Surgery, Vol 14, No 6, 1984, pp. 472-478.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-PWA4-0009-0002
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