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Twelfth International Conference on Adaptive Structures and Technologies -

Twelfth International Conference on Adaptive Structures and Technologies

Buch | Softcover
362 Seiten
2019
CRC Press (Verlag)
978-1-138-56287-5 (ISBN)
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This paper reviews some of the important technical barriers that must be overcome to achieve truly efficient flying adaptive micro air vehicles (MAVs). As defined by the Defense Advanced Research Agency (DARPA), MAVs are vehicles with no length dimension greater than 6 inches. These vehicles typically weigh less than 100 grams and some can fly for approximately 30 minutes. Over the past decade significant progress has been made in developing these small-scale mechanical flying machines. However, there is still much work to be done if these vehicles are to approach the efficiency and performance of biological fliers. This paper reviews the status of current miniature mechanical flying machines and compares their performance with common biological flyers such as birds, and small insects. This comparison reveals that advances in aerodynamic efficiency, lightweight and adaptive wing structures, energy conversion/propulsion systems and flight control are required to match or exceed the performance of nature’s great flyers.

Norman Wereley, Inderjit Chopra, Darryll Pines

Feasibility of Adaptive Micro Air Vehicles. Development of a Strain-Rate Dependent Model for Uniaxial Loading of SMA Wires. Adaptive Control of Semi-Active Variable Stiffness Devices for Narrow-Band Disturbance Rejection. Advanced Actuators. Mechanically Ratcheting Piezoelectric Motors. Solid-Fluid Hybrid Actuation: Concepts, Models, Capabilities and Limitations. Compact Piezo-Hydraulic Hybrid Actuator. Performance Modeling in a Piezo-Hydraulic Actuator. Experimental Studies of Zero Spillover Scheme for Active Structural Acoustic Control Systems. Smart Damping. An Adaptable Active-Passive Piezoelectric Absorber For Nonstationary Disturbance Rejection — Theory and Implementation. Hybrid Piezoelectric Damping System for Flexible Three-Story Structure with Base Excitation. Electrorheological Damper Analysis Using an Eyring Constitutive Relationship. Vibration Control of Train Suspension Systems via MR Fluid Dampers. Testing and Modeling of Magnetorheological Vibration Isolators. Identification And Control. Model to Determine the Performance Requirements of Adaptive Materials used to Morph a Wing with an Aerodynamic Load. Shape Control with Karhunen-Loève-Decomposition: Experimental Results. Damage Identification in Aging Aircraft Structures with Piezoelectric Wafer Active Sensors. Adaptive Stiffness Design For Multi-Material Structural System. Smart Materials. Constitutive Model of Shape Memory Alloys Based on the Phase Interaction Energy Function and its Application to Thermomechanical Process. Manufacture Of Ionic Polymer Actuators Using Non-Precious Metal Electrodes. Chemoelectric and Electromechanical Modeling of Ionic Polymer Materials. Modeling And Identification. Vibration Testing and Finite Element Analysis of Inflatable Structures. Fiber Tip Based Fiber Optic Acoustic Sensors. Modeling of Plate Structures Equipped with Current-Driven Electrostrictive Actuators for Active Vibration Control. Electro-Mechanical Coupled Modeling and Optimization of Passively Damped Adaptive Composite Structures. Interrogation of Beam and Plate Structures Using Phased Array Concepts. Modelization and Numerical Approximation of Active Thin Shells. Development of A PVDF Piezopolymer Sensor for Unconstrained In-Sleep Cardiorespiratory Monitoring. Simultaneous Design of Structural Topology and Control. High-Load/High-Speed Systems. Modelling and Design of High-Load Actuator Systems in Adaptive Structures. Development of Smart Missile Fins with Active Spoiler. An Adaptronic Solution To Increase Efficiency Of High-Speed Parallel Robots.

Erscheinungsdatum
Reihe/Serie CRC Press Revivals
Verlagsort London
Sprache englisch
Maße 206 x 279 mm
Gewicht 453 g
Themenwelt Technik Fahrzeugbau / Schiffbau
Technik Luft- / Raumfahrttechnik
Technik Maschinenbau
ISBN-10 1-138-56287-4 / 1138562874
ISBN-13 978-1-138-56287-5 / 9781138562875
Zustand Neuware
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