Structural Size Optimization of External Fixation Device

Mešić, Elmedin; Muminović, Adil; Čolić, Mirsad; Petrović, Marin; Pervan, Nedim

doi:10.12913/22998624/116870

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Tytuł artykułu

Structural Size Optimization of External Fixation Device

Autorzy

Mešić Elmedin , Muminović Adil , Čolić Mirsad , Petrović Marin , Pervan Nedim

Treść / Zawartość

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DOI

10.12913/22998624/116870

Warianty tytułu

Języki publikacji

Abstrakty

Structural size optimization of a device for external bone fixation within a formed iterative hybrid optimization algorithm was presented in this paper. The optimization algorithm was in interaction with the algorithms for generative design and FEM analysis and completely integrated within CATIA CAD/CAM/CAE system. The initial model, representing the current design of the bone external fixation device Sarafix, was previously verified by experimental testing. The formed hybrid optimization algorithm was created as an integration of the global (SA method) and local (CG method) algorithm. The constraints of the optimization model are the clinical limitations of the interfragmentary displacements and the material strength. The optimized design has less weight, greater rigidity and less transverse interfragmentary displacements at the point of fracture compared to the current design.

Słowa kluczowe

structural size optimization external fixation device SA method CG method interfragmentary displacements principal stresses

optymalizacja wymiarów konstrukcji stabilizator zewnętrzny metoda SA przemieszczenia międzyfrakcyjne metodą CG naprężenia główne

Wydawca

Lublin University of Technology
Polish Society of Ecological Engineering (PTIE), Branch of PTIE in Lublin

Czasopismo

Advances in Science and Technology. Research Journal

Rocznik

2020

Tom

Vol. 14, no 2

Strony

233--240

Opis fizyczny

Bibliogr. 25 poz., fig., tab.

Twórcy

autor

Mešić Elmedin

University of Sarajevo, Mechanical Engineering Faculty Sarajevo, Vilsonovo šetalište 9,Sarajevo, Bosnia and Herzegovina

autor

Muminović Adil

University of Sarajevo, Mechanical Engineering Faculty Sarajevo, Vilsonovo šetalište 9,Sarajevo, Bosnia and Herzegovina

autor

Čolić Mirsad

University of Sarajevo, Mechanical Engineering Faculty Sarajevo, Vilsonovo šetalište 9,Sarajevo, Bosnia and Herzegovina

autor

Petrović Marin

University of Sarajevo, Mechanical Engineering Faculty Sarajevo, Vilsonovo šetalište 9,Sarajevo, Bosnia and Herzegovina

autor

Pervan Nedim

pervan@mef.unsa.ba

University of Sarajevo, Mechanical Engineering Faculty Sarajevo, Vilsonovo šetalište 9,Sarajevo, Bosnia and Herzegovina

Bibliografia

1. Amirouche F. Principles of Computer-Aided Design and Manufacturing. 2nd edition, Prentice Hall, Upper Saddle River, New Jersey, 2004.
2. Arora J.S. Introduction to Optimum Design, Academic Press, 2nd Edition, 2004.
3. Fancello E.A., Haslinger J. and Feijóo R.A. Numerical comparison between two cost functions in contact shape optimization. Structural Optimization, 9(1), 1995, 57–68.
4. Fancello E.A. Topology optimization for minimum mass design considering local failure constraints and contact boundary conditions. Structural and Multidisciplinary Optimization, 32(3), 2006, 229–240.
5. Hilding D., Klarbing A. and Petersson J. Optimization of structures in unilateral contact. Applied Mechanics Reviews, 52(4), 1999, 139–160.
6. Khan A.S. and Wang X. Strain Measurements and Stress Analysis, Prentice-Hall, New Jersey, USA, 2001.
7. Konig O. and Wintermantel M. CAD-based Evolutionary Design Optimization with CATIA V5, Weimarer Optimierungs- und Stochastiktage 1.0, 2004.
8. Mešić E. Development of an integrated CAD/KBE system for design/redesign of external bone fixation devices, PhD thesis, Mechanical Engineering Faculty Sarajevo, 2013.
9. Mešić E., Avdić V., Pervan N. and Repčić N. Finite element analysis and experimental testing of stiffness of the Sarafix external fixator. Procedia Engineering, 100, 2015, 1598–1607.
10. Mešić E., Pervan N., Repčić N. and Muminović A. Research of influential constructional parameters on the stability of the fixator Sarafix. Annals of DAAAM for 2012 & Proceedings of the 23rd International DAAAM Symposium Intelligent Manufacturing & Automation: Focus on Sustainability, Editor: Katalinic B., Zadar, Croatia, October 24th- 27th, 2012, 561–564.
11. Mešić E., Avdić V. and Pervan N. Numerical and experimental stress analysis of an external fixation system. Folia Medica Facultatis Medicinae Universitatis Saraeviensis, 50(1), 2015, 74–80.
12. Mešić E., Muminovic J.A. and Repčić N. Geometrical modelling and structural analysis of the Sarafix fixator configurations. Annals of DAAAM for 2012 & Proceedings of the 23rd International DAAAM Symposium Intelligent Manufacturing & Automation: Focus on Sustainability, Editor: Katalinic B., Zadar, Croatia, October 24th-27th, 2012, 69–74.
13. Mesic E., Muminovic A., Delic M., Čolić M. and Pervan N. Topological Optimization and Finite Element Method Analysis of Wheels on the Carts Winch Bridge Crane. TEM Journal, 8(4), 2019, 1288–1294.
14. Muminovic A.J., Muminovic A., Mesic E., Saric I. and Pervan N. Spur Gear Tooth Topology Optimization: Finding Optimal Shell Thickness for Spur Gear Tooth produced using Additive Manufacturing. TEM Journal, 8(3), 2019, 788–794.
15. Pervan N., Mešić E. and Čolić M. Stress analysis of external fixator based on stainless steel and composite material. International Journal of Mechanical Engineering & Technology, 8(1), 2017, 189–199.
16. Pervan N., Mešić E., Čolić M. and Avdić V. Stiffness Analysis of the Sarafix External Fixator of Composite Materials. International Journal of Engineering & Technology, 5(1), 2016, 20–26.
17. Pervan N., Mešić E., Čolić M. and Avdić V. Stiffness Analysis of the Sarafix External Fixator based on Stainless Steel and Composite Material. TEM Journal, 4(4), 2015, 366–372.
18. Pervan N., Muminović A.J., Muminović A. and Delić, M. Development of Parametric CAD Model and Structural Analysis of the Car Jack. Advances in Science and Technology Research Journal, 13(3), 2019, 24–30.
19. Pervan N., Čolić M., Šarić I. and Hadžiabdić V. Analysis of the Haulage Ropes on Ropeways in Case of Accidental Loads. TEM Journal, 5(2), 2016, 171–174.
20. Radke H., Aron D.N., Applewhite A. and Zhang G. Biomechanical Analysis of Unilateral External Skeletal Fixators Combined with IM-Pin and without IM-Pin Using Finite-Element Method, Veterinary Surgery 35, 2006, pp. 15–23.
21. Saric I., Pervan N., Muminovic A. and Colic M. Development of Integrated Intelligent Cad System for Design of Shafts. Tehnički vjesnik, 25(Supplement 1), 2018, 99–104.
22. Spillers W.R. and MacBain K.M. Structural Optimization. Springer, 2009.
23. Swantner A. and Campbell M.I. Topological and parametric optimization of gear trains. Engineering Optimization, 44(11), 2012, 1351–1368.
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25. Zienkiewicz O.C., Taylor R.L. and Zhu J.Z. The Finite Element Method: Its Basis and Fundamentals. 6th edition, Butterworth-Heinemann, Oxford, 2005.

Uwagi

Opracowanie rekordu ze środków MNiSW, umowa Nr 461252 w ramach programu "Społeczna odpowiedzialność nauki" - moduł: Popularyzacja nauki i promocja sportu (2020).

Typ dokumentu

Bibliografia

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