2022
DOI: 10.3389/fmech.2021.814446
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A New Architecture of Morphing Wing Based on Hyperelastic Materials and Metastructures With Tunable Stiffness

Abstract: Morphing wings with the ability of shape changing may enlarge the flight envelop of air vehicles. This is particularly important for small-scale aircrafts demanding maneuverability and adaptability in dynamic environments. However, to design a shape-changing mechanism suitable for small drones is very challenging due to extreme requirements raised by dimensional constraint, actuating limits, and weight restriction in Micro Air Vehicles (MAVs). A novel design method of morphing wings is proposed for small-scale… Show more

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Cited by 8 publications
(4 citation statements)
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“…At high Reynolds numbers, turbulence energy causes separated bubbles to return to the rotor surface without causing separation. At low Reynolds numbers, viscous forces significantly influence flow, which can decrease the lift to drag ratio of micro rotors (Xiao et al, 2022). Figure 4 shows a schematic diagram of laminar separation.…”
Section: Numerical Simulations Of Aerodynamic Characteristicsmentioning
confidence: 99%
“…At high Reynolds numbers, turbulence energy causes separated bubbles to return to the rotor surface without causing separation. At low Reynolds numbers, viscous forces significantly influence flow, which can decrease the lift to drag ratio of micro rotors (Xiao et al, 2022). Figure 4 shows a schematic diagram of laminar separation.…”
Section: Numerical Simulations Of Aerodynamic Characteristicsmentioning
confidence: 99%
“…In addition to the rapid progress in flow control actuators, morphing wings have emerged as a promising flow control approach due to their lightweight nature and adjustable stiffness (Xiao et al, 2022). In the realm of aviation, morphing encompasses alterations in wing span, sweep angle, twist angle, dihedral/anhedral angles, camber line, and airfoil thickness.…”
Section: Introductionmentioning
confidence: 99%
“…This method is immune to the external environment; however, it poses stringent requirements on sensor performance and the accuracy of deformation feedback algorithms. The control of wing deformation can be achieved through various methods, such as shape memory alloy (SMA) drive (Akbari et al, 2021;Lv et al, 2021;Lee et al, 2023), mechanism drive (Zhang et al, 2019;Xiao et al, 2022), and pneumatic drive (Ni et al, 2020;Guo et al, 2022). Notably, intelligent drive devices represented by SMAs and polymer (Cebrian et al, 2022) have emerged as popular solutions for novel wing variants due to their inherent characteristics, including lightweight construction, continuous and coordinated deformation, significant relative deformation, noise-free operation, and ease of control.…”
Section: Introductionmentioning
confidence: 99%