Morphing Wing Flight Control Via Postbuckled Precompressed Piezoelectric Actuators

Vos, Roelof; Breuker, Roeland De; Barrett, Ron; Tiso, Paolo

doi:10.2514/1.21292

Cited by 84 publications

(53 citation statements)

References 33 publications

(39 reference statements)

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“…Figure 10 shows the results from that "edge." By employing the practical experience and modeling techniques of [46][47][48][49][50][51][52], it can be seen that amplification ratios (AR) on the order of 3.5-3.8 are most generally achieved by bidirectional piezoelectric control actuation. Accordingly, the measured AR of 3.8 is seen to be an excellent achievement for the world's first torsionally amplified low-net passive stiffness piezoelectric actuator.…”

Section: Rotor Fabrication Testing and Resultsmentioning

confidence: 99%

“…Rather than pushing the structure through to a bistable situation, a highly controlled axial force could be used to induce a postbuckling effect. This effect would be seen to drive actuator deflections to very high values, but not sacrifice moment generation capability [46][47][48][49][50][51][52][53][54]. These PBP structures outperformed any other piezoelectrically driven actuators by factors of 3 and 4.…”

Section: Postbuckled Precompression (Pbp) Techniques and Analysismentioning

confidence: 99%

“…The analytical models called upon were established in [46][47][48][49][50][51][52] to determine the amount of axial forces required to fundamentally null the net passive stiffness of the pizoelectric actuator element. The overall PBP assembly design was laid out to provide several overarching properties:…”

Section: Pbp Ssar Root Actuator Designmentioning

confidence: 99%

See 2 more Smart Citations

Solid State Adaptive Rotor Using Postbuckled Precompressed, Bending-Twist Coupled Piezoelectric Actuator Elements

Barrett

Barnhart

2012

Smart Materials Research

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This paper is centered on a new actuation mechanism which is integrated on a solid state rotor. This paper outlines the application of such a system via a Post-Buckled Precompression (PBP) technique at the end of a twist-active piezoelectric rotor blade actuator. The basic performance of the system is handily modeled by using laminated plate theory techniques. A dual cantilevered spring system was used to increasingly null the passive stiffness of the root actuator along the feathering axis of the rotor blade. As the precompression levels were increased, it was shown that corresponding blade pitch levels also increased. The PBP cantilever spring system was designed so as to provide a high level of stabilizing pitch-flap coupling and inherent resistance to rotor propeller moments. Experimental testing showed pitch deflections increasing from just 8 • peak-to-peak deflections at 650 V/mm field strength to more than 26 • at the same field strength with design precompression levels. Dynamic testing showed the corner frequency of the linear system coming down from 63 Hz (3.8/rev) to 53 Hz (3.2/rev). Thrust coefficients manipulation levels were shown to increase from 0.01 to 0.028 with increasing precompression levels. The paper concludes with an overall assessment of the actuator design.

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Section: Rotor Fabrication Testing and Resultsmentioning

confidence: 99%

Section: Postbuckled Precompression (Pbp) Techniques and Analysismentioning

confidence: 99%

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Solid State Adaptive Rotor Using Postbuckled Precompressed, Bending-Twist Coupled Piezoelectric Actuator Elements

Barrett

Barnhart

2012

Smart Materials Research

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“…46 This discovery was shown to dramatically improve flight control actuator performance and has been integrated into a number of flight control systems. [47][48][49][50][51][52][53] …”

Section: Low and Zero Net Passive Stiffness Structuresmentioning

confidence: 99%

Adaptive Fight Control Actuators and Mechanisms for Missiles, Munitions and Uninhabited Aerial Vehicles (UAVs)

Barrett¹

2011

Advances in Flight Control Systems

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“…The possibility of having actuated wings has allowed the design of new mechanisms that improve over classical fixed/rotary-wings MAV flight performance. As a result, different morphing-wing concepts and materials have emerged together with control methodologies that allow for accurate wing-actuation [4], [5], [6], [7], [8], [9].…”

Section: Introductionmentioning

confidence: 99%

Inertial attitude control of a bat-like morphing-wing air vehicle

Colorado¹,

Barrientos²,

Rossi³

et al. 2012

Bioinspir. Biomim.

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Abstract.This article presents a novel bat-like micro air vehicle inspired by the morphing-wing mechanism of bats. The goal of this paper is twofold. Firstly, a modelling framework is introduced for analysing how the robot should maneuver by means of changing wing morphology. This allows the definition of requirements for achieving forward and turning flight according to the kinematics of the wing modulation. Secondly, an attitude controller named backstepping+DAF is proposed. Motivated by the biological fact about the influence of wing inertia on the production of body accelerations, the attitude control law incorporates wing inertia information to produce desired roll (φ) and pitch (θ) acceleration commands (DAF function). This novel control approach is aimed at incrementing net body forces (F net ) that generate propulsion. Simulations and wind-tunnel experimental results have shown an increase about 23% in net body force production during the wingbeat cycle when the wings are modulated using the DAF function as a part of the backstepping control law. Results also confirm accurate attitude tracking in spite of high external disturbances generated by aerodynamic loads at airspeeds up to 5ms −1 . Inertial Attitude Control of a Bat-like Morphing-wing Micro Air Vehicle2

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Morphing Wing Flight Control Via Postbuckled Precompressed Piezoelectric Actuators

Cited by 84 publications

References 33 publications

Solid State Adaptive Rotor Using Postbuckled Precompressed, Bending-Twist Coupled Piezoelectric Actuator Elements

Solid State Adaptive Rotor Using Postbuckled Precompressed, Bending-Twist Coupled Piezoelectric Actuator Elements

Adaptive Fight Control Actuators and Mechanisms for Missiles, Munitions and Uninhabited Aerial Vehicles (UAVs)

Inertial attitude control of a bat-like morphing-wing air vehicle

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