Abstract
This study discusses the geometrical model of a coronary stent with known design and strength analysis using the finite element method. The coronary stent model was made of platinum and chromium alloy. Static analysis based on compression of the coronary stent was also performed. The aim of the analysis was to examine the strength of the stent structure. The study analyzed stresses, plastic strains and displacements after applying a constant load to the stent walls. The mechanical phenomena such as percentage degree of shortening (foreshortening), relative narrowing and area of stent covering were also determined. MSC 2010: 92C10, 74L15, 65
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CITATION STYLE
Idziak-Jabłońska, A., Karczewska, K., & Kuberska, O. (2017). Modeling of mechanical phenomena in the platinum-chromium coronary stents. Journal of Applied Mathematics and Computational Mechanics, 16(4), 29–36. https://doi.org/10.17512/jamcm.2017.4.03
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