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利用体块PZT制备膜片式压电微泵
引用本文:李以贵,黄远,颜平,王欢,杉山进. 利用体块PZT制备膜片式压电微泵[J]. 光学精密工程, 2016, 24(5): 1072-1079. DOI: 10.3788/OPE.20162405.1072
作者姓名:李以贵  黄远  颜平  王欢  杉山进
作者单位:1. 上海应用技术大学 理学院, 上海 201418;2. 立命馆大学 微系统系, 京都 525-8577 日本
基金项目:国家自然科学基金资助课题(60777016),上海联盟计划资助项目(LM201441),上海应用技术学院重点学科项目(10210Q150005),上海应用技术学院人才引进基金资助项目(YJ2014-03)
摘    要:利用锆钛酸铅(PZT)的逆压电效应,设计并制备了膜片式压电微泵。通过将电能转换为机械能,实现了液体的微流体控制。微泵由微驱动器与单向微阀两部分组成;微驱动器主要为液体流动提供驱动力,单向微阀则用于精确控制液体的流动方向。通过对PZT-Si膜片的位移量、位移形状的仿真分析,确定了微驱动器的设计尺寸,并估算其液体驱动性能。利用共晶键合工艺、研磨减薄工艺、硅深反应离子刻蚀工艺和准分子激光加工工艺等制备出了微驱动器和单向微阀。最后,设计了驱动测试实验,检测了微泵的液体驱动性能。测试结果表明:所制备的膜片式压电微泵驱动的谐振频率约为70kHz,能驱动微米量级的液体位移或运动。当微泵驱动电压为30Vp-p、频率为600Hz时,液体的驱动流速约为65μL/min。该微泵具有体积小,线性度好等特点。

关 键 词:微流控分析系统  膜片式压电微泵  锆钛酸铅(PZT)  单向微阀  逆压电效应  驱动仿真  微加工工艺
收稿时间:2016-01-10

Fabrication of micro diaphragm piezoelectric pump by using bulk PZT
LI Yi-gui,HUANG Yuan,YAN Ping,WANG Huan,SUGIYAMA Susumu. Fabrication of micro diaphragm piezoelectric pump by using bulk PZT[J]. Optics and Precision Engineering, 2016, 24(5): 1072-1079. DOI: 10.3788/OPE.20162405.1072
Authors:LI Yi-gui  HUANG Yuan  YAN Ping  WANG Huan  SUGIYAMA Susumu
Affiliation:1. School of Science, Shanghai Institute of Technology, Shanghai 201418, China;2. Department of Microsystem, Ritsumeikan University, Kyoto 525-8577, Japan
Abstract:On the basis of the inverse piezoelectric effect of the PZT(Pb based Lanthanum doped Zirconate Titanate), a micro diaphragm piezoelectric pump was designed and fabricated. By converting the electrical energy into mechanical energy, the microfluidic control of liquid was realized. The micro pump was consisted of two parts, a micro actuator and a micro check valve. The micro actuator was mainly used to provide a driving force for the liquid, and the micro check valve was taken to control the flow direction of the liquid precisely. With the simulation analysis of the displacement and shape of the PZT-Si diaphragm, the design size of micro actuator was determined and the driving liquid performance of the actuator was estimated. By using eutectic bonding, grinding thinning, ICP-RIE(Inductively Coupled Plasma-Reactive Ion Etching), excimer laser processing and other micro fabrication processes, the micro actuator and the micro check valve were fabricated, respectively. A driven testing of the micro pump was carried out. The experimental results show that the resonance frequency is about 70 kHz, which can drive the displacement and movement of liquid with a micrometer volume. When the driving signal is 30 Vp-p at the frequency of 600 Hz, the drive flow rate of liquid is about 65 μL/min. The fabricated micro pump is characterized by a small volume and good linearity.
Keywords:microfluidic analysis system  diaphragm piezoelectric micro pump  Pb based Lanthanum doped Zirconate Titanate(PZT)  micro check valve  inverse piezoelectric effect  driving simulation  micro fabrication
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