论文信息 - Research on dropping test and numerical simulation for unmanned aerial vehicle - 字舞流文

Research on dropping test and numerical simulation for unmanned aerial vehicle

Unmanned Aerial Vehicles (UAV) may lose control and collide with other objects in the air, thus causing serious flight safety accidents. In this paper, the impact load and damage mechanism of 4.78 ...

Yulong Li | Jun Liu | Chi Chen | Yazhou Guo | Jingyu Yu | Xiaochuan Liu | Fahad Raza | Jun Liu | Yulong Li | Yazhou Guo | Xiaochuan Liu | Chi Chen | Jingyu Yu | Fahad Raza

[1] Xiaohua Lu,et al. Simulations of airborne collisions between drones and an aircraft windshield , 2020 .

[2] Javid Bayandor,et al. Investigation of UAS Ingestion into High-Bypass Engines, Part 1: Bird vs. Drone , 2017 .

[3] Gerardo Olivares,et al. UAS Airborne Collision Severity Evaluation: Executive Summary – Structural Evaluation , 2017 .

[4] T. Wierzbicki,et al. Calibration and finite element simulation of pouch lithium-ion batteries for mechanical integrity , 2012 .

[5] T. Wierzbicki,et al. Characterizing and modeling mechanical properties and onset of short circuit for three types of lithium-ion pouch cells , 2014 .

[6] D. Casem,et al. Mechanical Response of Polycarbonate with Strength Model Fits , 2012 .

[7] Y. Gupta,et al. Load spreading and penetration resistance of layered structures—a numerical study , 2004 .

[8] Jeff Breunig,et al. Modeling Ground Collision Severity of Small Unmanned Aircraft Systems , 2018 .

[9] K. Low,et al. Airborne Collision Evaluation between Drone and Aircraft Engine: Effects of Position and Posture on Damage of Fan Blades , 2020, AIAA AVIATION 2020 FORUM.

[10] Jun Liu,et al. Dynamic response of the horizontal stabilizer during UAS airborne collision , 2019, International Journal of Impact Engineering.