摘要:本文利用动捕技术对无人机着陆系统模型进行动力学分析,对折纸结构双稳态着陆系统性能进行测试,为无人机着陆系统结构设计提供创新方法。 近期,一篇关于无人机着陆系统的研究论文“Evolution of UAV landing structures in the bistable space of Kresling origami structures”在《IEEE机器人与自动化快报》IEEE ...
Kresling origami derived structures and inspired mechanical metamaterial Kresling 折纸的衍生结构及启发的机械超材料论文 | Kresling折纸的衍生结构及启发的机械超材料折纸及折纸启发的机械超材料,因其独特…
The comparison shows that array structures offer better flow resistance than single-cell configurations. Additionally, the impact of the ventilation mechanism and double-layer structure on the drag force is investigated. Results indicate that Kresling origami structures exhibit varying drag force properties...
Origami structures have the advantages of foldability and adjustability, with applications spanning numerous engineering fields. However, there remains a dearth of intelligent and convenient methods that can effectively tackle both potential energy prediction and design problems on origami structures. This st...
Tunable multi-stability of conical Kresling origami structures utilizing local imperfections The classic Kresling origami structure has been widely studied in the past two decades because of its interesting mechanical properties, including compress... L Fan,L Bo,R Xu,... - 《Advances in Engineering ...
of the cable, rod, and membrane structures using the FPM is introduced. The method is verified by a bi-stability analysis of the Kresling pattern. The instability modes of the cable-rod model, the cable-rod-membrane model and the nested model based on the Kresling origami are ...
Topological mechanical metamaterials have been widely explored for their boundary states, which can be robustly isolated or transported in a controlled manner. However, such systems often require pre-configured design or complex active actuation for wave
Origami-structures in nature: lessons in designing "smart” materials. MRS Proc. 1420, mrsf11–1420–oo02–01 (2012). Article CAS Google Scholar Yasuda, H. & Yang, J. Tunable frequency band structure of origami-based mechanical metamaterials. J. Int. Assoc. Shell Spat. Struct. 58, 287...
Origami-structures in nature: lessons in designing "smart" materials. MRS Proc. 1420, mrsf11–1420–oo02–01 (2012). 42. Yasuda, H. & Yang, J. Tunable frequency band structure of origami-based mechanical metamaterials. J. Int. Assoc. Shell Spat. Struct. 58, 287–294 (2017). 43. ...
Origami structures have been widely used in various engineering fields due to their desirable properties such as geometric transformability and high specific energy absorption. Based on the Kresling origami pattern, this study proposes a type of thin-walled origami tube the structural configuration of wh...