Unsteady aerodynamics of flapping bionic eagle wings in forward flight: An experimental and numerical study

Abstract: The aerodynamic performance of fabricated eagle wing with the corrugated trailing edge was investigated experimentally and numerically in this study. In this respect, wings were designed by imitating the bionic eagle wing and fabricated using a 3D printer. Tests on the wings were performed in a wind tunnel for different bending deflection angles, flapping frequencies, angles of attack, and forward flight velocities. As the key parameters, lift and thrust forces, lift-to-drag and input power were compared betwe… Show more

“…Engineers can create UAV wings that exhibit enhanced aerodynamic performance by studying and replicating the structural features of these wings, such as their shape, flexibility, and surface textures. This includes improved lift-to-drag ratios, increased maneuverability, and reduced energy consumption during flight [18][19][20]. For instance, using flexible wing structures inspired by bird wings allows for adaptive wing morphing, enabling UAVs to adjust their wing shape in real time to optimize performance under different flight conditions [21].…”

Modeling and Application of an SMA-Actuated Lightweight Human-Inspired Gripper for Aerial Manipulation

“…Engineers can create UAV wings that exhibit enhanced aerodynamic performance by studying and replicating the structural features of these wings, such as their shape, flexibility, and surface textures. This includes improved lift-to-drag ratios, increased maneuverability, and reduced energy consumption during flight [18][19][20]. For instance, using flexible wing structures inspired by bird wings allows for adaptive wing morphing, enabling UAVs to adjust their wing shape in real time to optimize performance under different flight conditions [21].…”

Modeling and Application of an SMA-Actuated Lightweight Human-Inspired Gripper for Aerial Manipulation