基于压电振子的毛细管尖端切割方法研究

Study of Cutting Method for the Tip of the Glass Capillary Based on the Piezoelectric Vibrator

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摘要针对生物医学等领域对毛细管的制造需求,提出了一种利用压电振子的振动与冲击,对毛细管尖端进行切割,使尖端发生断裂形成通道的方法。通过基于激光加热的毛细玻璃管拉伸系统拉制成尖端堵塞的玻璃管,设计出玻璃基毛细管尖端切割装置。利用压电振子的振动与固定刀片,对毛细管尖端的两侧施加位移载荷,使毛细管尖端发生断裂形成通道,并对其内径与外径进行测量,其尖端内径小于1μm。 In order to meet the manufacturing requirements of capillaries in the biomedical fields, this paper proposed a method to form the channel by utilizing the vibration and impact of the piezoelectric vibrator and cutting the tip of the capillary. A glass tube with the tip blocked was firstly produced by the glass capillary drawing sys- tem based on laser heating, and a cutting device for the tip of glass capillary was then designed. The displacement loads were applied to both sides of the glass capillary tip by utilizing the vibration of the vibrator and the fixed blade in order to form the channel by breaking the tip of the capillary. The inner diameter and outer diameter were both measured, which shows that the inner diameter of the tip is below 1 μm.x

作者吴必成姚志远 WU Bicheng YAO Zhiyuan(State Key Laboratory o{ Mechanical Structure Mechanics and Control, Nanjing 210016, China)

机构地区机械结构力学及控制国家重点实验室

出处《机械与电子》 2017年第5期6-9,共4页 Machinery & Electronics

基金国家自然科学基金资助项目(51275229) 国家重大仪器设备开发专项(2012YQ100225)

关键词毛细管振动切割微纳通道 capillary vibration cutting micro - nano channel

分类号 TH12 [机械工程—机械设计及理论]

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参考文献3

1沈佐君.高效毛细管电泳仪在临床微生物学检验中的应用[J].中国医疗器械信息,2008,14(12):16-19. 被引量：1
2张磊,沙菁,刘磊,陈云飞.基于玻璃毛细管制备用于生物检测的纳米孔(英文)[J].纳米技术与精密工程,2013,11(1):9-13. 被引量：1
3姚志远,李晓牛,李响,耿冉冉,简月,刘振,代士超.直线超声电机设计、建模和应用的研究进展[J].振动．测试与诊断,2016,36(4):615-623. 被引量：14

二级参考文献47

1Deamer D W,Akeson M. Nanopores and nucleic acids:Prospects for ultrarapid sequencing[J].Trends in Biotechnology,2000,(04):147-151.doi:10.1016/S0167-7799(00)01426-8.
2Dekker C. Solid-state nanopores[J].Nature Nanotechnology,2007.209-215.
3Smeets R M M,Keyser U F,Krapf D. Salt dependence of ion transport and DNA translocation through solidstate nanopores[J].Nano Letters,2006,(01):89-95.
4Kasianowicz J J,Brandin E,Branton D. Characterization of individual polynucleotide molecules using a membrane channel[J].Proceedings of the National Academy of Sciences(USA),1996,(24):13770-13773.
5Li J,Stein D,McMullan C. Ion-beam sculpting at nanometre length scales[J].Nature,2001.166-169.
6Stein D,Li J,Golovchenko J. Ion-beam sculpting time scales[J].Physical Review Letters,2002,(27):276106.
7Storm A J,Chen J H,Ling X S. Fabrication of solidstate nanopores with single-nanometre precision[J].Nature Materials,2003,(08):537-540.
8Keyser U F,Krapf D,Koeleman B N. Nanopore tomography of a laser focus[J].Nano Letters,2005,(11):2253-2256.
9Heng J B,Aksimentiev A,Ho C. The electromechanics of DNA in a synthetic nanopore[J].Biophysical Journal,2006,(03):1098-1106.
10Lo C J,Aref T,Bezryadin A. Fabrication of symmetric sub5 nm nanopores using focused ion and electron beams[J].Nanotechnology,2006,(13):3264-3267.

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2张百亮,姚志远,刘振.单模态驱动的V形板结构直线超声电机[J].机械与电子,2018,36(9):36-41.
3何勍,Mohammed Umar Jibri.一种双悬臂弯曲振子直线超声电机的研究[J].辽宁工业大学学报（自然科学版）,2018,38(4):242-244. 被引量：3
4张百亮,姚志远,简月,李晓牛.基于弯曲模态的板形直线超声电机结构设计[J].振动与冲击,2019,38(1):110-117. 被引量：9
5陈西府,李明,卢倩,黄卫清.一种具有纳米级步进特性的直线压电电机[J].振动．测试与诊断,2019,39(1):209-216. 被引量：1
6周宁宁,李锦棒,卿涛,张激扬,马金芝,陈鹏飞.一种含柔性轴的超声电机定位特性研究[J].空间控制技术与应用,2020,46(4):52-57.
7梁晨光,张凤婷,胡新苒.高分子聚合材料在超声电机弹性体中的研究与应用[J].现代制造技术与装备,2020,56(9):46-48. 被引量：3
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10石明友,陈超,王均山.圆盘式行波压电马达的接触界面动力学分析及传动效率优化[J].振动与冲击,2021,40(10):271-277. 被引量：1

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基于压电振子的毛细管尖端切割方法研究

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