Numerical modeling of shape memory alloy vascular stent's self-expandable progress and "optimized grid" of stent.
- Author:
Qiang XU
1
;
Yulan LIU
;
Biao WANG
;
Jin HE
Author Information
1. Department of Engineering Mechanics, Engineering College, Sun Yat-sen University, Guangzhou, 510275, China.
- Publication Type:Journal Article
- MeSH:
Alloys;
chemistry;
Angioplasty, Balloon, Coronary;
instrumentation;
Computer Simulation;
Computer-Aided Design;
Humans;
Models, Biological;
Numerical Analysis, Computer-Assisted;
Prosthesis Design;
Stents
- From:
Journal of Biomedical Engineering
2008;25(5):1101-1106
- CountryChina
- Language:Chinese
-
Abstract:
Vascular stent is an important medical appliance for angiocardiopathy. Its key deformation process is the expandable progress of stent in the vessel. The important deformation behaviour corresponds to two mechanics targets: deformation and stress. This paper is devoted to the research and development of vascular stent with proprietary intellectual property rights. The design of NiTinol self-expandable stent is optimized by means of finite element software. ANSYS is used to build the finite element simulation model of vascular stent; the molding material is NiTinol shape memory alloy. To cope with the factors that affect the structure of stent, the shape of grid and so on, the self-expanding process of Nitinol stent is simulated through computer. By making a comparison between two kinds of stents with similar grid structure, we present a new concept of "Optimized Grid" of stent.
