Modeling and elastic simulation of auxetic magnesium stents

Author

Carneiro, V.H. ; Puga, H.

Author_Institution

Dept. of Mech. Eng., Univ. of Minho, Guimaraes, Portugal

fYear

2015

fDate

26-28 Feb. 2015

Firstpage

1

Lastpage

4

Abstract

Auxetic materials are characterized by getting thiner/ larger in tension/compression. This counterintuitive behavior is advantageous in specific applications such as self-expandable stents. There are currently some stents that make use of this behavior, nevertheless there are still auxetic geometries that are not explored in this field. Additionally, Pure Magnesium is a promising material to manufacture bioabsorbable stents. This study presents the modelation of novel auxetic self-expanding stents based in Reentrant and Chiral geometries. They are simulated using Finite Element analysis to determine the presence of negative Poisson´s ratios and if they are a possible solution for further stent development. It is concluded that such modelations show low values of Poisson´s ratio and may be a viable possibility to obtain a new generation of self-expanding stents.

Keywords

auxetics; biomedical materials; elasticity; finite element analysis; magnesium; stents; Mg; auxetic geometry; auxetic magnesium stent elastic simulation; auxetic magnesium stent modeling; auxetic self-expanding stent; bioabsorbable stent; chiral geometry; compression; finite element analysis; negative Poisson ratio; reentrant geometry; stent development; Analytical models; Auxetic materials; Biological system modeling; Finite element analysis; Geometry; Magnesium; Mathematical model; auxetic; magnesium; stent;

fLanguage

English

Publisher

ieee

Conference_Titel

Bioengineering (ENBENG), 2015 IEEE 4th Portuguese Meeting on

Conference_Location

Porto

Type

conf

DOI

10.1109/ENBENG.2015.7088856

Filename

7088856