Affiliation:
1. School of Astronautics, Harbin Institute of Technology, Harbin 150001, China
2. Shanghai Aircraft Design and Research Institute, Shanghai 201210, China
Abstract
The investigation of multi-body dynamics (MBD) modeling for landing gear drop tests is a hot topic in the realm of landing gear design. The current results were primarily focused on the multi-rigid body simulation or a simple multi-flexible body simulation, with little regard for the correctness of longitudinal loads and their experimental confirmation, particularly wheel–axle loads. Based on a genuine oleo-pneumatic landing gear drop test of a large civil aircraft, enhanced multi-body dynamics simulation research is carried out, considering the structural flexibility and bearing support by adopting flexible multi-bodies modeling and rigid-flex coupling contacts. When compared to the test data, which purposefully measured the longitudinal wheel–axle loads, the simulation results show that the loads, shock absorber compression, and shock absorber inner pressures are all within good agreement. Furthermore, the influence of structural stiffness and bearing contact was investigated by adjusting the model settings to confirm their importance.
Funder
Shanghai Aircraft Design and Research Institute, China Commercial Aircraft Corporation
Reference28 articles.
1. Synthesis of landing dynamics on land-base high performance aircraft considering multi-variate landing conditions;Suresh;Mech. Based Des. Struct. Mach.,2023
2. Schmidt, R.K. (2021). The Design of Aircraft Landing Gear, SAE International.
3. Overview of landing gear dynamics;Pritchard;J. Aircr.,2001
4. Fang, W., Zhu, L., and Wang, Y. (2022). Landing Performance Study for Four Wheels Twin Tandem Landing Gear Based on Drop Test. Aerospace, 9.
5. EASA (2023). Certification Specifications and Acceptable Means of Compliance for Large Aeroplanes, CS-25 Amendment 27.