基于SU-8胶的新型被动式微型阀

张丛春; 郭泰; 丁桂甫

doi:10.3788/OPE.20132104.1011

您当前的位置：

首页 >

文章列表页 >

基于SU-8胶的新型被动式微型阀

微纳技术与精密机械 | 更新时间：2020-08-12

- 基于SU-8胶的新型被动式微型阀
- Passive micro-valve based on SU-8
- 光学精密工程 2013年21卷第4期页码：1011-1016
- 作者机构：
  
  上海交通大学微纳科学技术研究院微米/纳米加工技术重点实验室
- 作者简介：
- 基金信息：
  
  教育部创新基金资助();上海市创新平台项目()
- DOI：10.3788/OPE.20132104.1011
  中图分类号： TH134.1
- 收稿日期：2012-10-24，
  
  修回日期：2012-12-10，
  
  网络出版日期：2013-04-20，
  
  纸质出版日期：2013-04-15
- 稿件说明：
移动端阅览
张丛春郭泰丁桂甫. 基于SU-8胶的新型被动式微型阀[J]. 光学精密工程, 2013,21(4): 1011-1016

ZHANG Cong-chun GUO Tai DING Gui-fu. Passive micro-valve based on SU-8[J]. Editorial Office of Optics and Precision Engineering, 2013,21(4): 1011-1016
张丛春郭泰丁桂甫. 基于SU-8胶的新型被动式微型阀[J]. 光学精密工程, 2013,21(4): 1011-1016 DOI： 10.3788/OPE.20132104.1011.

ZHANG Cong-chun GUO Tai DING Gui-fu. Passive micro-valve based on SU-8[J]. Editorial Office of Optics and Precision Engineering, 2013,21(4): 1011-1016 DOI： 10.3788/OPE.20132104.1011.

摘要

为了在微流体控制系统中实现对流体流速的控制和流体的单向流动，借鉴人体心脏瓣膜的结构，设计了新型被动式微阀。选用SU-8作为被动式微型阀的结构材料，用ANSYS仿真了不同厚度（10，15，20 m）的阀门膜片在不同压力作用下的挠度与应力，进而确定了合适的阀门膜片厚度。利用微细加工技术，集成加工了微型阀，并由此确定和优化了微型阀的加工工艺。用去离子水作为介质测试了微型阀的过流特性，在正向压力为11.7 kPa的压力作用下，测得A、B型被动式微阀的正向流速分别为1.66 ml/min和1.35 ml/min。对测试数据的分析表明，设计的微型阀有线性控制的潜能。以SU-8胶作为结构材料的微型阀不仅性能较好，同时具有生物兼容性，可扩展微型阀的应用范围。

Abstract

To control the velocity and one-way flow of fluid in a micro-fluidic system

a novel passive micro-valve was designed base on Micro-electrical-mechanical System(MEMS) technology. By drawing lessons from a human heart valve structure

the deflections and stresses of a valve membrane under different pressures were analyzed with ANSYS by using SU-8 as the passive micro-valve structural materials

then the thickness of the valve membrane was optimized. The valve was fabricated with integrated processing of MEMS technique

so that the process technology for the valve membrane was determined. The performance of the passive valve was tested using deionized water as media and the forward flow velocities obtained are 1.66 ml/min for type A and 1.35 ml/min for type B under a forward pressure of 11.7 kPa. The tested analyzing data indicate that the designed passive valve has the potentiality of linear control

which means that the passive micro-valve made by SU-8 has not only better performance but also better bio-compatibility and can extend the applications of passive micro-valves.

关键词

Keywords

references

崔海航，李战华，靳刚.一种PDMS薄膜微型阀的制备与性能分析[J].细微加工技术，2004,(3):70-75. CUI H H. LI ZH H. J G. Thin films micro-valve’ preparation analysis and performance analysis made by PDMS [J].Fine Processing Technology, 2004,(3):70-75. (in Chinese)[2]倪俊辉,李蓓智，杨建国,等.仪表技术与传感器，2011,(3):85-87. NI J H. LI P ZH. YANG J G. Based on the novel PDMS planar micro valve [J]. Instrument Technique and Sensor, 2011,(3):85-87. (in Chinese)[3]KWANG W O, CHONG H A. A review of microvalves [J]. Micromechanics and Microengneering,2006,16:R13-R39.[4]NGUYEN N T,TTUONG T Q,WONG K K, et al.. Micro check valves for integration into polymeric microfluidic devices [J]. Micromechanics and Microengneering,2004,14:69-75.[5]JONGHYUN O, GYUMAN K, FRANCIS K,et al.. Design and frabrication of a PDMS/Parylene microvalve for the treatment of hydrocephalus[J]. Journal of Microelectromechanical Systems, 2011,20(4):33-36.[6]耿照新,崔大付,马小玲.基于MEMS技术的SU-8胶被动微阀片的设计与研制[J].纳米技术与精密工程，2008，6(5):343-348. GENG ZH X. CUI D F. MA X L. Design and development of SU-8 check microvalve base on MEMS Technology [J]. Nanotechnology and Precision Engineering, 2008，6(5):343-348. (in Chinese)[7]EZKERRA A,JOSE L,MAYORA K, et al.. A microvalve for lab-on-a-chip applications based on electrochemically actuated SU8 cantilevers[J]. Sensor and Actuators, 2011, B 155:505-511.[8]MATA A,FLEISCHMAN A J,ROY S. Fabrication of multi-layer SU-8 microstructures [J]. Journal of Micromechanics and Microengneering,2006,16:276-284.[9]崔峰，肖奇军，吴校生,等.Pyrex玻璃金属化凹坑的湿法腐蚀[J].功能材料与器件学报，2008,14(1):236-240. CUI F. XIAO Q J. WU X SH. Wet etching pits of Pyrex glass for metallization [J]. Journal of Functional Materials and Devices, 2008,14(1):236-240. (in Chinese)

浏览量

下载量

CSCD

文章被引用时，请邮件提醒。

提交

工具集

关联资源

微流控实时荧光PCR成像非均匀性的校正

横向电磁式振动能量采集器的设计与制作

S型折叠式微悬臂梁刚度计算

金属微结构阵列的电铸成型技术研究