BISTABLE CYLINDRICAL MECHANICAL META-STRUCTURES WITH ENERGY DISSIPATION
A bistable structure has two different stable shapes or positions for which the elastic energy of the structure reaches a local minimum value.In this paper, a bistable energy-absorbing cylindrical shell structure composed of multiple unit cells is presented.The intrinsic relationship between axial compression force and displacement of the unit cell was analyzed.It is found that the unit cell can be made to achieve negative stiffness or even bistable phenomenon by adjusting its parameters.A series of cylindrical shell structures were fabricated using 3D printer and the axial loading and unloading experiments were carried out.Based on the experimental test and FEA, the structural bistable phase transition response mechanism was analyzed.The results show that the force-displacement response curves of the multi-layer cylindrical shell for the loading and unloading processes do not coincide with each other but enclose a closed area, which confirms the energy dissipation of the structure under cyclic loading.The structure is proved to have good stability and repeatability, and it can fully recover to the original shape after deformation.
Bistable Negative stiffness Meta-structure Energy dissipation
Jian HUA Hong-shuai LEI Cun-fa GAO Dai-ning FANG
State Key Laboratory of Mechanics and Control of Mechanical Structures, Nanjing University of Aerona Beijing Key Laboratory of Lightweight Multi-functional Composite Materials and Structures, Beijing I
国际会议
哈尔滨
英文
325-329
2019-01-11(万方平台首次上网日期,不代表论文的发表时间)