使用有限元法对犬气管支架进行疲劳分析

IF 1.9 Q2 AGRICULTURE, DAIRY & ANIMAL SCIENCE
Hun-Young Yoon , Jin-Young Choi
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引用次数: 0

摘要

本研究旨在评估三种支架设计在施加各种力时的疲劳情况,并进行比较分析。我们使用有限元方法进行了计算机模拟。特别是,我们构建了用于治疗犬气管塌陷(TC)的三种设计(S6:单层编织金属丝,金属丝直径:0.006 英寸;D6:双层编织金属丝,金属丝直径:0.006 英寸;D7:双层编织金属丝,金属丝直径:0.007 英寸)的镍钛诺支架的三维有限元模型。对支架施加了 200 mmHg 的压缩力、垂直方向的纯扭转力以及结合了垂直力和轴向力的弯曲扭转力。计算冯米塞斯应力可评估支架位移的程度,绘制古德曼图可比较疲劳寿命周期。与 S6 和 D6 相比,D7 的疲劳寿命更长。在压缩、纯扭转和弯曲扭转力作用下,D7 的位移最小,其次是 D6 和 S6。同样,D7 的疲劳寿命最长,其次是 D6 和 S6。在受到外力时,S6 的位移最大;在使用相同金属丝设计的支架中,D6 的位移小于 S6,而 D7 在受到不同程度的力时,疲劳寿命更长。这项研究表明,使用有限元方法可以有效比较支架的结构稳定性和疲劳寿命,D7 在循环负荷下具有最大的稳定性和结构刚度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Fatigue analysis of canine tracheal stents using the finite element method

This study aimed to evaluate fatigue of three stent designs when various forces are applied and perform a comparative analyses. A computer simulation using the finite element method was performed. In particular, we constructed a three-dimensional finite element model of nitinol stents with three designs (S6: single-woven wire, wire diameter: 0.006 inch; D6: double-woven wire, wire diameter: 0.006 inch, and D7: double-woven wire, wire diameter: 0.007 inch) that are used to treat canine tracheal collapse (TC). The stents were subjected to a 200 mmHg compression force, a pure torsion force in a perpendicular direction, and a bending-torsion force combining perpendicular and axial forces. The von Mises stress was calculated to evaluate the extent of stent displacement, and Goodman diagrams were plotted to compare fatigue life cycles. D7 exhibited a longer fatigue life compared to S6 and D6. Under compression, pure torsion, and bending-torsion forces, displacement was the smallest for D7, followed by D6 and S6. Similarly, the fatigue life was the longest for D7, followed by D6 and S6. S6 showed the greatest displacement when subjected to external forces; among stents designed using the same wire, D6 displayed less displacement than S6, and D7 exhibited superior fatigue life when subjected to varying degrees of force. This study showed that the structural stability and fatigue life of stents could be effectively compared using finite element method D7 has the greatest stability and structural rigidity under cyclic load.

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来源期刊
Veterinary and Animal Science
Veterinary and Animal Science Veterinary-Veterinary (all)
CiteScore
3.50
自引率
0.00%
发文量
43
审稿时长
47 days
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