Electromagnetic Pump Made in a Hybrid Polymer-Ceramic Technology--Preliminary Results
Electromagnetic Pump Made in a Hybrid Polymer-Ceramic Technology--Preliminary Results
摘要
This paper describes technology of the electromagnetic pump made in a hybrid polymer-ceramic technology. The pumping mechanism is realized with a mutual excitation between an electromagnetic coil and a neodymium magnet bonded to a flexible membrane. A PDMS (poly(dimethylsiloxane)) material was used to manufacture a membrane sufficient for the presented micropump. A fish trap construction is adapted to the ceramic technology. The bonding process of ceramics and polymer, using plasma oxidation method, is described as well. Moreover, a membrane deflection depending on magnet dimensions and applied voltage was measured.
参考文献12
-
1Zhang, c., Xing, D.; Li, Y. Micropumps, Microvalves, and Micromixers within PCR Microfluidic Chips: Advances and Trends. Biotechnology Advances 2007, 25(5), 483-514.
-
2Gongora-Rubio, M. R.; Espinoza-Vallejos, P.; Sola-Laguna, L.; Santiago-Aviles, J. J. Overview of Low Temperature Co-fired Ceramics Tape Technology for MsST (Meso-System Technology). Sensors and Actuators A: Physical200t, 89(2), 222-241.
-
3Malecha, K.; Golonka, L. J.; Baldyga, J.; Jasinska, M.; Sobieszuk, P. Serpentine Microfluidic Mixer Made in L TCe. Sensors and Actuators B: Chemical 2009, 143, 400-413.
-
4Bembnowicz, P.; Malodobra, M.; Kubicki, W.; Szczepariska, P.; G6recka-Drzazga, A.; Dziuban, J.; et al. Preliminary Studies on L TCC Based PCR Microreactor. Sensors and Actuators B: Chemical 2010, 150, 715-721.
-
5Rios, A.; Escarpa, A.; Simonet, B. Miniaturization of Analytical Systems: Principles, Designs and Applications; John Wiley & Sons, Ltd.: 2009; pp 39-92.
-
6Laser, S. J.; Santiago, J. G. A Review of Micropumps. Journal of Micromechanics and Microengineering 2004, 14, R35-R64.
-
7da Cunha, M. R.; Saul, S. K.; Gongora-Rubio, M. R. In Numerical and Experimental Analysis of Microfluidic Diode Manufactured in LTCC Technology, Proceedings of International Conference IBERSENSOR, Montevideo, Uruguay, Sept. 27-29, 2006.
-
8Tseng, L. Y.; Yang, A. S.; Lee, e. Y.; Cheng, C. H. Investigation of a Piezoelectric Valveless Micropump with an Integrated Stainless Steel DiffuserlNozzle Bulge-Piece Design. Smart Materials and Structures 2013,22, 1-12.
-
9Malecha, K. A PDMS-L TCC Bonding Using Atmospheric Pressure Plasma of Dielectric Barrier Discharge for Microsystem Application. Sensors and Actuators B: Chemical 2013, 181,486-493.
-
10Wang, A. B.; Hsieh, M. C. Unveiling the Missing Transport Mechanism inside the Valveless Micropump. Lab on a Chip 2012, 12, 3024-3027.
-
1王莹淑,郑辉东.Synthesis and Theoretical Investigation of a New Hybrid Polymeric Iodoplumbate Based on Co-template:[(ipq)_2(pea)(Pb_3I_9)·DMF]_n[J].Chinese Journal of Structural Chemistry,2009,28(7):886-892.
-
2张肇富.陶瓷技术的今天,明天和后天[J].国外科技,1990(11):5-7.
-
3Zhi-Wei Yu,Shu-Xi Gao,Kai Xu,You-Xiong Zhang,Jun Peng,Ming-Cai Chen.Synthesis and characterization of silsesquioxane-cored star-shaped hybrid polymer via "grafting from" RAFT polymerization[J].Chinese Chemical Letters,2016,27(11):1696-1700. 被引量:3
-
4美国西北大学开发全新杂化聚合物取得新进展[J].化工新型材料,2016,44(3):251-251.
-
5侯美丽.电磁泵声学特性研究[J].噪声与振动控制,2003,23(1):23-25. 被引量:1
-
6童幸生.一种新型的密封技术——陶瓷密封[J].润滑与密封,2001,26(2):62-64. 被引量:3
-
7卢婷利,梁国正,宫兆合,任鹏刚,张增平.含倍半硅氧烷的杂化聚合物[J].高分子通报,2004(1):15-20. 被引量:43
-
8华硕,李树宏,张天懿,路大勇.(Ba_(1-x)La_x)(Ti_(1-x/2)Mg_(x/2))O_3陶瓷的结构相变[J].吉林化工学院学报,2015,32(6):69-71.
-
9Ekaterina Tugova,Victor Gusarov.Processing stages of Gd_2Sr(Al_(1-x)Fe_x)_2O_7 series[J].Rare Metals,2014,33(1):47-53.
-
10高.欧盟限量指令挑战国内陶瓷技术水平[J].化学分析计量,2006,15(2):49-49.
