Mechanical Performances of an Integrate Micropump. Application in Electrophoresys

Mechanical Performances of an Integrate Micropump. Application in Electrophoresys

Due to the success of the Si technology in the micro electro mechanical systems MEMS - manufacturing, a lot of integrated micropumps were recently developed. The main structures don't have movable parts, like input/output valves, because they can be easily destroyed during the operation. This p...

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Bibliographische Detailangaben
Hauptverfasser: Ravariu, F., Ravariu, C., Nedelcu, O., Babarada, F., Manea, E., Podaru, C.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Biomembranes
charged bioliquids
Ducts
Fluid flow
Manufacturing
Mechanical systems
membrane bending
MEMS
Micromechanical devices
Micropumps
Modeling
piezoelectric actuation
Piezoelectric effect
Silicon
simulation
Valves
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Zusammenfassung:Due to the success of the Si technology in the micro electro mechanical systems MEMS - manufacturing, a lot of integrated micropumps were recently developed. The main structures don't have movable parts, like input/output valves, because they can be easily destroyed during the operation. This paper presents an integrated pump with diffuser and nozzle ducts. The silicon membrane of micropump is actuated by a PZT layer, using the reverse piezoelectric effect. Coventor simulations confirm the micropump functionality. The entire MEMS structure could perform two roles: (1) ensures the liquid flow through the micropump chamber or (2) serves to separate the negative positive ions contained in a carrier bioliquid. Some simulations results aid to design the micropump for a possible application electrophoresis. However, the main aim of this paper was to simulate the mechanical stress produced by an electrical stimulus in a complex MEMS structure
ISSN:1545-827X
2377-0678
DOI:10.1109/SMICND.2006.283966