Thesis supervisor: Tamás Mankovits
Location of studies (in Hungarian): University of Debrecen Faculty of Informatics Abbreviation of location of studies: DE IK
Description of the research topic:
Syllabus
The production of different orthopedical products from biocompatible material (e.g. titanium) by Additive Manufacturing (AM) technology has enermous potential. Cellular structures can also be produced thanks to metal printing, therefore it is possible to design implants with similar strength as human bone. The purpose of the research is to design patient specific cellular implants optimized for weight and strength taking the medical requirements and manufacturing limits into consideration. During the research the application of different structural optimization processes and those integration into finite element software environment are investigated.
Bibliography
[1] T. Mankovits: Numerical analysis of unit cell models for orthopedic applications, IOP Conference Series: Materials Science and Engineering, 393 Paper: 012019, 2018.
[2] L.E. Murr, S.M. Gaytan, F. Medina, H. Lopez, E. Martinez, B.I. Machado, D.H. Hernandez, L. Martinez, M.I. Lopez, R.B. Wicker, J. Bracke: Next-generation biomedical implants using additive manufacturing of complex, cellular and functional mesh arrays, Philos Trans A Math Phys Eng Sci., 368(1917), pp. 1999-2032., 2010.
[3] M. Fraldi, L. Esposito, G. Perrella, A. Cutolo, S.C. Cowin: Topological optimization in hip prosthesis design, Biomechanics and Modeling in Mechanobiology, 9(4), pp. 389-402., 2010.
[4] I. Eldesouky, O. Abdelaal, H. El-Hofy: Femoral Hip Stem with Additively Manufactured Cellular Structures, IEEE Conference on Biomedical Engineering and Sciences, 2014.
Deadline for application: 2024-05-15
2024. IV. 17. ODT ülés Az ODT következő ülésére 2024. június 14-én, pénteken 10.00 órakor kerül sor a Semmelweis Egyetem Szenátusi termében (Bp. Üllői út 26. I. emelet).