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http://yadda.icm.edu.pl:80/baztech/element/bwmeta1.element.baztech-article-BOS5-0021-0001

Czasopismo

Journal of Achievements in Materials and Manufacturing Engineering

Tytuł artykułu

Numerical modelling of structure and mechanical properties for medical tools

Autorzy Jeziorski, L.  Jasinski, J.  Lubas, M.  Szota, M.  Lacki, P.  Stodolnika, B. 
Treść / Zawartość http://www.journalamme.org
Warianty tytułu
Języki publikacji EN
Abstrakty
EN Purpose: In order to design forceps and bowl cutter property, it is necessary to optimise many parameters and consider the functions, which these medical tools should fulfil. Of course, some simplifications are necessary in respect of calculation methodology. In the paper a solution procedure concerning this problem has been presented. The presented solution allows for precise determination of the geometrical dimensions according to the functional requirements that forceps should fulfil. The presented numerical analysis describes a small range of the forceps application but the used algorithm can be applied in any other type of forceps. Also in the paper, the numerical simulation results of the bowl cutter being loaded are presented. Residual stress distribution on the tool surface is presented. A position of the cutting edges and holes carrying away the bone chips is shown as a polar diagram. Design/methodology/approach: The numerical analysis was carried out using ADINA software, based on the finite element method (FEM). In the paper some fundamental construction problems occurring during the design process of the forceps and bowl cutter have been discussed. Findings: The iteration procedures in order to optimize the basic construction parameters of the medical tools (forceps and bowl cutter). The calculations allow for determination of the geometrical parameters with reference to the expected spring rate. The charts elaborated on the basis of the calculations are very useful during a design process. The numerical calculations show an essential problem, namely a change in contact surface as a function of load. The observed phenomenon can affect the functioning of the forceps in a negative way. The numerical simulation make it possible to obtain the suitable geometry, better material properties and the instructions heat treatment of these tools. Research limitations/implications: These research was carried out in order to improve ergonomics, mechanical properties and work condition of medical tools. For bowl cutter was improve geometrical sharp and distribution of cutting holes. Originality/value: This paper presents conception to obtain new medical tools, after optimizing the basic construction parameters by numerical calculations. The prepared model could be a helpful for engineering decisions used in the designing and producing forceps and bowl cutter.
Słowa kluczowe
PL metoda elementów skończonych   MES   optymalizacja numeryczna   narzędzie medyczne   inżynieria powierzchni  
EN finite element method   FEM   numerical optimization   medical tool   surface engineering  
Wydawca International OCSCO World Press
Czasopismo Journal of Achievements in Materials and Manufacturing Engineering
Rocznik 2007
Tom Vol. 24, nr 1
Strony 237--244
Opis fizyczny Bibliogr. 14 poz., fot., rys., tab.
Twórcy
autor Jeziorski, L.
autor Jasinski, J.
autor Lubas, M.
autor Szota, M.
autor Lacki, P.
autor Stodolnika, B.
  • Faculty of Materials Processing Technology and Applied Physics, Czestochowa University of Technology, Al. Armii Krajowej 19, 42-200 Czestochowa, Poland, mszota@mim.pcz.czest.pl
Bibliografia
[1] PN-EN-556:1999, Sterilisation of medical articles. The requirement (in Polish).
[2] N. Peckitt, Engineering assisted surgery. Maintenance problems 2/57 (2005) 135-147.
[3] CHIRMED® The General catalog. The factory of medical tools (in Polish).
[4] I. Peled, Hooked forceps, Annals of Plastic Surgery 12 (1984) 385-386.
[5] DH. Frankel, The use of a combination skin hook and tissue forceps: a new instrument for dermatologic surgery, The Journal of Dermatologic Surgery and Oncology 14 (1988) 497-499.
[6] DH. Lalonde, Hook forceps, Annals of Plastic Surgery 26 (1991) 597.
[7] M. Gierzynska-Dolna, Biotribology, Częstochowa Univesity of Technology Publishing House, Czestochowa, 2002 (in Polish).
[8] J. Marciniak, Biomaterials, Silesian University of Technology Publishing House, Gliwice, 2002 (in Polish).
[9] Z. Paszenda, J. Trylik-Held, Surgical instrumentarium, Silesian University of Technology Publishing House, Gliwice. 2003.
[10] PN-91/Z-54003, Medical tools. Surgical cutters. Requirement and investigation (in Polish).
[11] K.J. Bathe, Finite Element Procedures, Prentice Hall, Englewood Cliffs, NJ, 1996.
[12] Theory and Modeling Guide Volume I: ADINA Solids & Structures Inc., Report ARD 05-7, Adina Research & Development, 2005.
[13] A. Zykowa, V. Lukyanchenko, V. Safonov, The corrosion properties of implanted materials with various protective coatings, Maintenance problems 2/57 (2005) 123-134.
[14] L.A. Dobrzanski, Z. Brytan, M. Actis Grande, Corrosion resistance of sintered duplex stainless steel evaluated by electrochemical method, Journal of Achievements in Materials and Manufacturing Engineering 17 (2006) 317-320.
Kolekcja BazTech
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