功能材料
功能材料
공능재료
JOURNAL OF FUNCTIONAL MATERIALS
2014年
z1期
132-137
,共6页
胡志勇%王文雯%冯海全%王志国%韩青松
鬍誌勇%王文雯%馮海全%王誌國%韓青鬆
호지용%왕문문%풍해전%왕지국%한청송
镁合金%冠脉支架%有限元法%力学性能%结构优化
鎂閤金%冠脈支架%有限元法%力學性能%結構優化
미합금%관맥지가%유한원법%역학성능%결구우화
magnesium alloy%coronary stent%finite element method%mechanics performance%structure optimiza-tion
支架的扩张性能及力学性能是手术成功与否的重要因素之一.利用有限元方法仿真模拟分析了镁合金支架体外耦合扩张过程,重点研究不同支架初始直径、支撑体长度和周向个数对扩张性能及力学性能的影响,以达到结构优化的目的.结果显示,减小支架初始直径,支架应力应变分别降低3.94%和16.59%;增加支架支撑体长度,支架应力应变分别降低15.76%和49.50%;增加周向支撑体个数,支架应力应变分别下降8.97%和31.78%;改变3个结构参数均可以有效降低支架应力应变,其中支撑体长度的影响较大.通过支架的扩张性能及力学性能分析出支架最优结构,为将来镁合金支架的设计优化提供重要参考依据.
支架的擴張性能及力學性能是手術成功與否的重要因素之一.利用有限元方法倣真模擬分析瞭鎂閤金支架體外耦閤擴張過程,重點研究不同支架初始直徑、支撐體長度和週嚮箇數對擴張性能及力學性能的影響,以達到結構優化的目的.結果顯示,減小支架初始直徑,支架應力應變分彆降低3.94%和16.59%;增加支架支撐體長度,支架應力應變分彆降低15.76%和49.50%;增加週嚮支撐體箇數,支架應力應變分彆下降8.97%和31.78%;改變3箇結構參數均可以有效降低支架應力應變,其中支撐體長度的影響較大.通過支架的擴張性能及力學性能分析齣支架最優結構,為將來鎂閤金支架的設計優化提供重要參攷依據.
지가적확장성능급역학성능시수술성공여부적중요인소지일.이용유한원방법방진모의분석료미합금지가체외우합확장과정,중점연구불동지가초시직경、지탱체장도화주향개수대확장성능급역학성능적영향,이체도결구우화적목적.결과현시,감소지가초시직경,지가응력응변분별강저3.94%화16.59%;증가지가지탱체장도,지가응력응변분별강저15.76%화49.50%;증가주향지탱체개수,지가응력응변분별하강8.97%화31.78%;개변3개결구삼수균가이유효강저지가응력응변,기중지탱체장도적영향교대.통과지가적확장성능급역학성능분석출지가최우결구,위장래미합금지가적설계우화제공중요삼고의거.
The expansion and mechanics performance of stent was one important factors to ensure operation suc-cess.By using the finite element method (FEM),the outer coupling expansion process of the magnesium alloys stent was simulated and analyzed.We focused the research on the change initial diameter of stent and support length and circumference direction number's influence on the expansion and mechanics performance,explored the stent structure to optimize.The results showed with that decrease of the initial diameter of stent,its stress and strain reduced by 3.94% and 16.59% respectively;with increase of the support length of stent,its stress and strain reduced by 15.76% and 49.50% respectively;with increase of circumference direction number of sup-port,stress and strain of stent decreased by 8.97% and 31.78% respectively.Changing the three structural pa-rameters could effectively decrease the stress and strain of stent,and the support length impact was bigger.To analyze the optimal design of stent structure through its expansion performance and mechanics performance, and provide assistance for the future magnesium alloy stent optimal design.