Author(s)

Jifeng Xu

Corresponding Author

Jifeng Xu

Abstract

The application of finite element analysis method to construct a three-dimensional model of human bones and design of medical equipment for orthopedic surgery is more precise and faster. According to the clavicle model, the clavicle locking plate model was established. The stress distribution of the finite element model of the locking plate was evaluated under bending and torsion conditions. 64-row spiral CT was used to scan the chest of young adult healthy males. The two-dimensional image data of the male clavicle was obtained. The data were analyzed by Mimics10.0 software, and the three-dimensional finite element model of clavicle was established. The CG software was used to establish the clavicle according to the clavicle model. Lock the bone plate model. The abaqus software was used to evaluate the locking plate to give a force of 200 N downward for bending and 200 N•mm for axial torsion, to simulate the force of the clavicle locking titanium plate, and further analyze the stress distribution.

Keywords

Bone Plate Model, Finite Element Analysis, Clavicle Personalized Locking Bone