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Accession Number:
ADA564753
Title:
Flapping Wing Technology for Micro Air Vehicles Incorporating a Lead Zirconate Titanate (PZT) Bimorph Actuator
Descriptive Note:
Final rept. Oct 2011-Apr 2012
Corporate Author:
ARMY RESEARCH LAB ABERDEEN PROVING GROUND MD VEHICLE TECHNOLOGY DIRECTORATE
Report Date:
2012-06-01
Pagination or Media Count:
20.0
Abstract:
Army operations have placed a high premium on reconnaissance missions for unmanned aerial vehicles UAVs and micro air vehicles MAVs 15 cm or less in dimension and less than 20 g in mass. One approach for accomplishing this mission is to develop a biologically inspired flapping wing insect-sized device that can maneuver into confined areas. Analysis of insect flight indicates that in addition to the bending excitation flapping, simultaneous excitation of the twisting degree of freedom pitching is required to adequately control the vehicle. Traditionally, bimorph piezoelectric lead zirconate titanate PZT PbZr0.55Ti0.45O3 actuators have been used to excite the bending degree of freedom. In laminated or layered structures, bend-twist coupling is governed by having at least one anisotropic layer not aligned with the primary plate axes. By adding a layer of off-axis PZT segments to a PZT bimorph actuator, a functionally modified bimorph now offers a bend-twist coupling, flexural response in the traditional bimorph actuator. This study presents an experimental investigation of both traditional bimorph and functionally modified PZT bimorph designs intended for active bend-twist actuation of cm-scale flapping wing devices. Results are shown comparing aerodynamic parameters for three wing shapes and two PZT designs.
Distribution Statement:
APPROVED FOR PUBLIC RELEASE
