Experimental and numerical methods in biomechanics

• Autorzy: Będziński R.
• Języki publikacji: EN

Abstrakty

EN

The main aim of these investigations is the analysis of the displacement and strain distribution in anatomical and biomechanical objects (including implants) using numerical methods and methods of solid mechanics, e.g. the ESPI methods, the holographic interferometry, the moiré method.

Słowa kluczowe

EN

displacement; strain; finite element method (FEM); ESPI method; holographic interferometry; Moiré method

PL

przemieszczenie; odkształcenie; metoda elementów skończonych; interferometria holograficzna

• Wydawca: Nałęcz Institute of Biocybernetics and Biomedical Engineering of the Polish Academy of Sciences ; Elsevier
• Czasopismo: Biocybernetics and Biomedical Engineering
• Rocznik: 2007
• Tom: Vol. 27, no. 1-2
• Strony: 275--292
• Opis fizyczny: Bibliogr. 25 poz., rys., wykr.

Twórcy

autor

Będziński R.

• Wrocław University of Technology, Biomedical Engineering and Experimental Mechanics Laboratory, 7/9 Łukasiewicza St., 50-371 Wrocław, Poland,

Bibliografia

• 1. An H.Y., Draughan R.A.: Mechanical testing of Bone and the Bone Implant Interface, CRC Press, Boca Rato London, 2000.
• 2. Beaupre, G.S., Hayes W.C.: Finite element analysis of a three-dimensional open-celled model for trabecular bone, J. Biomech. Eng., 107,1985.
• 3. Będziński R.: Biomechanics Engineering. Selected Problems, Wrocław University of Technology, (Eds), 1997.
• 4. Będziński R., Szotek S.: Experimental methods in implantology. Biomechanics and Rehabilitation Engineering T.5, (Monograph PAN: Biocybernetics and Biomedical Engineering 2000, Eds: M. Nałęcz), Publishing company EXIT, Warsaw 2004.
• 5. Będziński R., Pilarski W., Wodzisławski W.: Application of the Experimental and Numerical Methods in Stress and Strain Analysis of the Pelvis Model. 2004 SEM Proc. X International Congress USA, 2004.
• 6. Będziński R., Owczarek A., Pezowicz C.: A study of the vertebral by holographic interferometry methods, Proceedings of the European Medical and biological Engineering Conference EMBEC'99, 1999, 37, Supplement 2.
• 7. Boone P. M.: Some coherent-optical deformation measurement techniques useful in biomechanics, Experimental Mechanics Technology Transfer between High Techniąue Engineering and Biomechanics, Edition by E. G. Little, Elsevier, Amsterdam, 1992.
• 8. Borbas L.: Elements of Experimental Stress Analysis, CourseDesign forQuality, Forli, 1995.
• 9. Cowin S.C.: Bone stress adaptation models, J. Biomech. Eng., 115, 1993.
• 10. Corby T.W.: Diagnosing stress problems with photoelastic testing, Experimental Mechanics. Technology Transfer between High Tech. Engineering and Biomechanics, E.G. Little, (Ed.) Amsterdam 1992.
• 11. Huiskes R., Chao E.Y.S.: A survey of finite element analysis in orthopaedic biomechanics, Journal of Biomechanics, 16, 1983.
• 12. ISTRA v. 3.2, Manual V1.2, Instruction of software, Dr. Ettemeyer GmbH & Co., 1999.
• 13. Kapkowski J., Kujawinska M.: A new hybrid technique for photoelastic investigation, Proceeding of l0th. International Conference on Experimental Mechanics, Lisbon, 1994.
• 14. Kapkowski J.: Basis of the experimental strain and stress analysis, Warsaw University of Technology, 1996,(in Polish).
• 15. Morecki A.: Role of the identification in experimental investigations, SilesiaUniversity of Technology Z. 112, (Ed.), Gliwice 1999.
• 16. Prendergast P. J.: Biomechanical Techniques for Preclinical Testing of Prostheses and Implants, Lecture Notes 2, AMAS Polish Academy of Sciences, 2001.
• 17. Prendergast P.J.: Finite elements models in tissue mechanics and orthopedic implant design, Clinical Biomechanics, 1997, 12, 6.
• 18. Pilarski W., Będziński R.: Investigation of the displacement on the sample cadaver pelvis by use ESPI, Acta of Bioengineering And Biomechanics, 2002,4, l.
• 19. Pilarski W., Będziński R., Trzaskacz T., Dulko I.: Experimental and numerical analysis of strain distribution in pelvis bone, Proceedings of III Seminar Biomechanics of bone system, Warsaw, 2001.
• 20. Stupnicki J.: Trends of experimental mechanics, Journal of Theoretical and Applied Mechanics, 34, 2, Warsaw 1996.
• 21. Szotek S.: Influence of stabilisation system on bone structures displacements in human cervical spine, PhD thesis, Wrocław University of Technology, Wrocław 2003.
• 22. Ścigała K.: FEM analysis of deformation and surgical correction of tibia bone, Acta Bioeng. Biomech., 2002, 4,1.
• 23. Będziński R., Ścigała K.: Experimental analysis of surgically corrected knee joint, Strain, November 1998.
• 24. Zawieska D.: Moiré technique in diagnostic of the spine. Mat. XV Symposium of Experimental Mechanics, Jachranka 1992.
• 25. Ziębowicz A., Pezowicz C., Marciniak J.: Biomechanical stability analysis in the plateniting of mandible, Proceedings of the 4th Polish Scientific Conference "Biomechanics'99", Wrocław University of Technology, (Ed.) 1999, 1,1.