Title :
Design and characterization of a low-voltage piezoelectrically actuated polymer membrane
Author :
Feth, H. ; Esch, M. ; Mueller, C. ; Thoma, F. ; Biancuzzi, G. ; Lemke, T. ; Goldschmidtboeing, F. ; Woias, P.
Author_Institution :
Dept. of Microsyst. Eng., Albert-Ludwigs-Univ. of Freiburg, Freiburg, Germany
Abstract :
This publication presents the design, fabrication and characterization of a novel piezo-polymer technology, as a main building block for polymer-based MEMS actuators and devices. A high-precision hot embossing process has been developed to fabricate mechanically robust polycarbonate membranes, with a high flatness, large size and small, precise adjustable thickness. The mounting of a low-voltage multilayer piezoactuator was performed with an optimized gluing process to provide a thin interface layer with a high mechanical strength. By applying a voltage of 40 V to the actuator, displacements up to 18 μm were achieved without fatigue after 10 000 cycles. Up to an isostatic pressure of 50 kPa the membrane shows a linear mechanical deflection without any mechanical hysteresis or bulging.
Keywords :
embossing; hysteresis; membranes; microactuators; piezoelectric actuators; polymers; gluing process; high precision hot embossing process; isostatic pressure; linear mechanical deflection; mechanical strength; multilayer piezoactuator; piezo-polymer technology; polycarbonate membrane; polymer-based MEMS actuator; pressure 50 kPa; thin interface layer; voltage 40 V; Actuators; Embossing; Micropumps; Nonhomogeneous media; Piezoelectric polarization; Polymers; Thickness measurement; Polymer membrane; hot embossing; low-voltage; piezoelectric actuator;
Conference_Titel :
Solid-State Sensors, Actuators and Microsystems Conference (TRANSDUCERS), 2011 16th International
Conference_Location :
Beijing
Print_ISBN :
978-1-4577-0157-3
DOI :
10.1109/TRANSDUCERS.2011.5969608
