超材料
隔振
刚度
可控性
计算机科学
解耦(概率)
振动
振动控制
拓扑(电路)
电子工程
工程类
声学
物理
控制工程
结构工程
数学
光学
电气工程
应用数学
作者
Wenlong Liu,Lingling Wu,Jingbo Sun,Ji Zhou
摘要
Multi-directional low-frequency vibration isolation is an unavoidable problem in many practical engineering scenarios. However, to date, most works are unable to achieve this goal, and those that can do so only to some degree, but their structure is complex and large, limiting the range of applications in practical engineering. Here, we propose a kind of quasi-zero stiffness (QZS) metamaterial constructed from a series of Kresling-pattern origami-inspired structures, whose simple topology with reasonable design parameters can obtain the expected QZS features. Moreover, the decoupling strategy adopted by the proposed QZS metamaterials allows for the independent motion of adjacent unit cells, resulting in an improvement in controllability and programmability. We demonstrate, both in simulations and experiments, the design process and the multi-directional low-frequency vibration isolation characteristics of the proposed QZS metamaterial. This study provides a method for realizing multi-directional low-frequency vibration isolation, expanding the application potential of QZS metamaterials for broader needs.
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