泵腔结构参数对压电气泵性能影响
[1] ZHANG A,ZHA Y,ZHANG J, A surface acoustic wave micropump to pump fluids from a droplet into a closed microchannel using evaporation and capillary effects[J]. Aip Advances,2014,4(12):885-895,
[2] 卫铃佼,赵雅楠,梁惊涛, 压电泵驱动闭式水冷回路实验研究[J]. 压电与声光,2020,42(5):663-667,
[4] 华顺明,张宇,彭宇,等, 压电阀中的微位移放大机构[J]. 压电与声光,2021,43(1):134-141,
[6] 郑晓培,王洪臣,杨利,等, 压电驱动器的性能分析与测试[J]. 液压与气动,2018(1):30-33,
[7] LIU C,ZHU Y, Simulation and experimentalstudy of direct spray type piezoelectric air pumps based onsynthetic jet[J]. Microsystem Technologies,2019,25:4445-4454,
[8] BHARAMBE J T,MOGAL P W,PATIL S, Characterizat on of piezoelectric micro pum[C]//Hinjawadi,Pune,India: 2016 International Conference on Automatic Control and Dynamic Optimization Techniques (ICACDOT) IEEE,2016:490- 495,
[9] MORADI-DASTJERDI R,MEGUID S A,AHMADI S R, Dynamic behavior of novel nanocomposite diaphragm in piezoelectrically-actuated micropump[J]. Smart Materials and Structures,2019,28(10):105022,
[10] MA H K,CHEN R H,HSU Y H, Development of a piezoelectric-driven miniature pump for biomedical applications[J]. Sensors & Actuators A: Physical,2015,234:23-33,
[11] 胡笑奇,张建辉,黄毅, 仿尾鳍压电双晶片无阀压电泵的模拟与实验[J]. 振动、测试与诊断,2011,31(2):193-197,
[12] 孙晓锋,张慧,刘勇,等, 两种三腔并联压电泵结构设计与性能比较[J]. 机床与液压,2021,49(3):101-104,
[13] 王淑云,阚君武,沈黄桥,等, 五腔串联压电泵的设计制作与试验[J]. 纳米技术与精密工程,2012,10(5):406-411,
贺春山, 李沈芳, 刘金龙, 林佳颖, 侯俊, 田晓超. 泵腔结构参数对压电气泵性能影响[J]. 压电与声光, 2022, 44(2): 264. HE Chunshan, LI Shenfang, LIU Jinlong, LIN Jiaying, HOU Jun, TIAN Xiaochao. Research on the Influence of Pump Chamber Structure Parameters on the Performance of Piezoelectric Gas Diaphragm Pumps[J]. Piezoelectrics & Acoustooptics, 2022, 44(2): 264.