TITLE:
Numerical Stress Analysis of the Plates Used to Treat the Tibia Bone Fracture
AUTHORS:
M. O. Kaman, N. Celik, S. Karakuzu
KEYWORDS:
Tibia Fracture, Finite Element Model, ANSYS, Biomechanics
JOURNAL NAME:
Journal of Applied Mathematics and Physics,
Vol.2 No.6,
May
16,
2014
ABSTRACT:
Tibial fractures are one of the most
frequent bone fractures caused by accidents or falls because of the tibia’s
slender shape. In the tibial fractures close to the joint surface, a plate and
screws may be the ideal method of fixation. While using the plate and the
screws the estimation of the stress on the plate and screw gains importance
before beginning the treatment. In this study, it is aimed to conduct a
numerical simulation which uses finite element methodology, to estimate the von
Mises stress subjected to the plate and screw which is used in tibia fracture
treatment. A titanium plate and 4 screws on it are used for treatment of the
fracture. The fracture angle varies as 0°, 15°, 30°, and 45°. The compressive
force affected on the plate is estimated to be 750 N. Moreover, the bone is
simulated 3D, by using commercial software, ANSYS Structural.