Biomechanics of Implants
Copyright policy )Biomechanics of Implants
For simple constructions a mechanical analysis to determine internal stresses and deformation is possible using theoretical formulas. However, for complex constructions, like joint prostheses, this is not possible. Numerical simulation of internal stresses and deformations offers a solution for these constructions. The so-called Finite Element Analysis divides the complex structure in simple ones (elements), applies the mechanical formulas and adds the effect on each element to predict the behaviour of the complex contruction.
- University of Groningen Netherlands
- University of Twente Netherlands
- Regensburg University of Applied Sciences Germany
- Royal College of Surgeons in Ireland Ireland
- University Medical Center Groningen Netherlands
METIS-283007, Joint Prosthesis, Finite Element Analysis, Biomedical Engineering, Biocompatible Materials, Prostheses and Implants, Prosthesis Design, Models, Biological, node, Biomechanical Phenomena, differential equation, METIS-269225, IR-97442, Humans, Computer-Aided Design, Stress, Mechanical, mechanics, stiffness matrix
METIS-283007, Joint Prosthesis, Finite Element Analysis, Biomedical Engineering, Biocompatible Materials, Prostheses and Implants, Prosthesis Design, Models, Biological, node, Biomechanical Phenomena, differential equation, METIS-269225, IR-97442, Humans, Computer-Aided Design, Stress, Mechanical, mechanics, stiffness matrix
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