功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2014年
7期
7099-7103
,共5页
冯海全%陈彦龙%何平基%韩青松%王志国
馮海全%陳彥龍%何平基%韓青鬆%王誌國
풍해전%진언룡%하평기%한청송%왕지국
镁合金%冠脉支架%柔顺性%弯曲刚度%有限元法
鎂閤金%冠脈支架%柔順性%彎麯剛度%有限元法
미합금%관맥지가%유순성%만곡강도%유한원법
magnesium alloy%coronary stents%flexibility%bending stiffness%finite element method
柔顺性是冠脉支架很重要的一个力学性能,它决定了支架的输送性及血管内支架的适应性。利用有限元法对6种不同结构的镁合金冠状动脉支架进行模拟分析,主要研究其不同连接体结构对支架柔顺性能的影响。结果显示,在压握状态下,不同连接体结构对支架柔顺性能影响较大,其中 S 型支架柔顺性较好,直杆 L 型支架柔顺性较差;在扩张状态下,连接体和支撑体个数相同时主要取决于连接体的结构;无论是在压握状态还是扩张状态下,有圆弧形的连接体的支架柔顺性要优于直杆形连接体的支架。关于支架柔顺性能的模拟结果,为今后镁合金冠脉支架的结构优化设计和临床选择起到了指导作用。
柔順性是冠脈支架很重要的一箇力學性能,它決定瞭支架的輸送性及血管內支架的適應性。利用有限元法對6種不同結構的鎂閤金冠狀動脈支架進行模擬分析,主要研究其不同連接體結構對支架柔順性能的影響。結果顯示,在壓握狀態下,不同連接體結構對支架柔順性能影響較大,其中 S 型支架柔順性較好,直桿 L 型支架柔順性較差;在擴張狀態下,連接體和支撐體箇數相同時主要取決于連接體的結構;無論是在壓握狀態還是擴張狀態下,有圓弧形的連接體的支架柔順性要優于直桿形連接體的支架。關于支架柔順性能的模擬結果,為今後鎂閤金冠脈支架的結構優化設計和臨床選擇起到瞭指導作用。
유순성시관맥지가흔중요적일개역학성능,타결정료지가적수송성급혈관내지가적괄응성。이용유한원법대6충불동결구적미합금관상동맥지가진행모의분석,주요연구기불동련접체결구대지가유순성능적영향。결과현시,재압악상태하,불동련접체결구대지가유순성능영향교대,기중 S 형지가유순성교호,직간 L 형지가유순성교차;재확장상태하,련접체화지탱체개수상동시주요취결우련접체적결구;무론시재압악상태환시확장상태하,유원호형적련접체적지가유순성요우우직간형련접체적지가。관우지가유순성능적모의결과,위금후미합금관맥지가적결구우화설계화림상선택기도료지도작용。
Finite element method (FEM)was used for simulation analysis of 6 kinds of magnesium alloy with dif-ferent structure of coronary artery stent for simulation analysis.The purpose of this paper was to study and compare flexibility of different stents.Results showed that,in the profiling state,different connection bars of stents had big effect on their flexibility.The flexibility of S-stent was better,instead the L-stent was worse;in expansion,different connectors and axial supports of stent both had effect on flexibility of stent when the length of stents were equal,the number of axial support had a great impact;when the number of axial supports are e-qual,the structure of connectors play a role in the flexibility of stents.No matter in pressure state or in expan-sion,the stent whose structure of connectors are round-arc has better flexibility than that whose connectors were straight.The flexibility of coronary stents with different connection bars,provided scientific guidance for the design and development of the stent and interventional treatment.