Journal of Bionic Engineering (2024) 21:877–891 https://doi.org/10.1007/s42235-023-00465-4
Efect of Blood Circulation in Veins on Resonance Suppression of the Dragonfy Wing Constructed by Numerical Method
Lijun Zhang1 · Xu Zhang1 · Kaifei Wang1 · Zhenwei Gan1 · Shibo Liu1 · Xiao Liu1 · Zhengjun Jing1 · Xudong Cui1 · Jiahui Lu1 · Jing Liu1
1 College of Mechanical and Electronic Engineering, China University of Petroleum, Qingdao 266580, China
AbstractTo reveal the resonance suppression mechanism of the blood circulation in dragonfy wings, a numerical modeling method of dragonfy wings based on Voronoi diagrams is proposed, and the changes in mass, aerodynamic damping, and natural frequencies caused by blood circulation in veins are investigated. The equivalent mass of blood, boundary conditions, and aerodynamic damping are calculated theoretically. Modal analysis and harmonic response analysis of wing models with different blood circulation paths are performed using the fnite-element method (FEM). The vibration reduction ratio δ is introduced to compare the damping efciency of diferent mass regions. Finally, a natural frequency testing device is constructed to measure the natural frequencies of dragonfy wings. The results indicate that the shape, mass, and natural frequencies of the dragonfy wing model constructed by numerical method agree well with reality. The mass distribution on the wing can be altered by blood circulation, thereby adjusting the natural frequencies and achieving resonance suppression. The highest δ of 1.013 is observed in the C region when blood circulates solely in secondary veins, but it is still lower than the δ of 1.017 when blood circulates in complete veins. The aerodynamic damping ratio (1.19–1.79%) should not be neglected in the vibration analysis of the beating wing.
Keywords Dragonfy wings · Blood circulation · Resonance suppression · Voronoi diagram · FEM