Title :
Controlling Bandgap in Electroactive Polymer-Based Structures
Author :
Gei, Massimiliano ; Roccabianca, Sara ; Bacca, Mattia
Author_Institution :
Dept. of Mech. & Struct. Eng., Univ. of Trento, Trento, Italy
Abstract :
A waveguide with a periodic structure is able to filter waves whose frequencies lie in the band-gap ranges displayed in dispersion diagrams. The lengths of these forbidden bands depend on the contrast in material and geometrical properties of parts of the system which realize the periodicity. In this paper, a novel way to control band gaps is proposed: to set the geometric characteristics of a prestretched waveguide made of soft dielectric elastomer applying an external voltage to pairs of electrodes applied with a regular pattern on the device. The technique proves to be feasible and is able to tune accurately the position of band gaps over all frequency spectrum. For the investigated system, a device able to guide flexural waves, bandgap ranges of about 100-200 Hz have been obtained over frequencies on the order of 1 kHz.
Keywords :
dielectric materials; elastic waves; elastomers; energy gap; parallel plate waveguides; periodic structures; polymer structure; bandgap control; dielectric elastomer; electroactive polymer-based structures; filter waves; flexural waves; forbidden bands; frequency 100 Hz to 200 Hz; geometrical property; periodic structure; prestretched waveguide; Dielectrics; Dispersion; Electrodes; Equations; Mathematical model; Photonic band gap; Stress; Bloch waves; dielectric elastomers; electroactive polymers (EAPs); finite elasticity; smart structures;
Journal_Title :
Mechatronics, IEEE/ASME Transactions on
DOI :
10.1109/TMECH.2010.2090165
