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冠状动脉支架的设计与加工工艺 被引量:4

Design and fabrication of coronary stent
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摘要 提出了面向激光雕刻管状冠状动脉支架的通用化制作工艺流程,包括支架的结构设计、材料选择、切割、真空退火和电化学抛光等关键工序.研究了金属覆盖率、网孔、轴向短缩率和支撑效率等的相互影响,以选择合理的支撑环和连杆形式;确定了激光切割加工中最优化切割路径和机器参数;阐述了抛光前处理时酸洗液的选择、酸洗温度和时间的控制,以及真空退火时升温速度、冷却速度和保温时间的控制;分析了抛光液的选择和电极设计,以及抛光温度、电压和时间对电化学抛光效果的影响;并设计制作出了符合体外测试要求的支架样件. The general process of fabrication oriented to the laser cutting tubular coronary stent is presented. The key procedures comprise stent configuration, material selection, laser cutting, vacuum annealing and electro-polishing. The metal coverage, cell window, axial shortening, support efficiency and their interactions are investigated to design the proper supporting struts and linking rings. The optimized cutting path and parameters of cutting machine are put forward. The selection of pickling solution, time and temperature are expatiated, and the control of heat preservation, heating and cooling speed for vacuum annealing are studied. After analyzing the electrolyte selection and electrode design, the influence of voltage, time and temperature in electro-polishing is discussed. Some stents were produced with good performance, which were validated by testing in vitro. The research results provide technical support for fabricating metal stent with excellent biomechanics properties.
作者 顾兴中 易红 倪中华 王跃轩
机构地区 东南大学机械工程系
出处 《东南大学学报(自然科学版)》 EI CAS CSCD 北大核心 2005年第6期898-902,共5页 Journal of Southeast University:Natural Science Edition
基金 国家自然科学基金资助项目(50475074)
关键词 冠状动脉支架 制作工艺 激光切割 真空退火 电化学抛光 coronary stent process of fabricating laser cutting vacuum annealing electro-polishing
分类号 TH122 [机械工程—机械设计及理论] TH162.1 [机械工程—机械制造及自动化]
  • 相关文献

参考文献12

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二级参考文献6

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共引文献11

同被引文献27

  • 1陈吉欣,隋展,陈福深,王凤蕊,李明中,王建军,刘志强,罗亦鸣.端面泵浦掺Yb^(3+)双包层光纤激光器[J].应用光学,2006,27(4):315-318. 被引量:4
  • 2王伟强,杨大智,齐民.冠状动脉支架抗压缩性能的有限元分析[J].生物医学工程学杂志,2006,23(5):1008-1012. 被引量:7
  • 3黎大军,杜戈果,闫培光.LD泵浦掺铥(Tm^(3+))光纤激光器的数值分析[J].应用光学,2007,28(4):439-444. 被引量:8
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  • 5FR Wagner,C Boillata,J Buchilly,et al. High-speed cutting of thin materials with a Q-switched laser in a waterjet vs. conventional laser cutting with a free running laser[C]. Proceedings of SPIE, 2003, 4977 : 70-71.
  • 6YP Kathuria. Laser microfabrication of biocompatible metallic stent for medical therapy[C]. Proceedings of SPIE,2003, 5142:176-180.
  • 7YP Kathuria. An overview on laser microfabrication of bicompatible metallic stent for medical therapy[C]. Proceedings of SPIE, 2004,5399 : 234-241.
  • 8SK Sudheer, VPM Pillai, VU Nayar, et al. Micromachining of 316LVM stainless steel tubes using periodic acousto-optic modulation of pulsed Nd: YAG lasers for cardiovascular stent applications[J]. J. Microlith. Microfab. Microsyst. ,2006,5(2) :1-5.
  • 9M Baumeister, K Dickmann, T Hoult. Fiber laser micro-cutting of stainless steel sheets[J]. Appl. Phys. A, 2006,85 (2) : 121-124.
  • 10W Liu, W Du, J Liao. Application of fiber laser used in the field of stent cutting and micromachining[C]. Proceedings of SPIE, 2005,5629 : 263-265.

引证文献4

二级引证文献24

东南大学学报(自然科学版)
2005年 第6期

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