形状记忆合金
变形
材料科学
双稳态
执行机构
复合材料
复合数
压力(语言学)
钛镍合金
结构工程
振动
复合材料层合板
阻尼器
智能材料
计算机科学
声学
工程类
物理
哲学
人工智能
光电子学
语言学
计算机视觉
作者
V.S.C. Chillara,Marcelo J. Dapino
摘要
Laminated composites with orthogonally-applied mechanical prestress have been shown to exhibit two stable shapes where each shape is influenced by only one prestrained lamina. The application of mechanical prestress is associated with an irreversible non-zero stress state; when combined with smart materials with controllable stress-states, this results in multifunctionality in morphing composites. This study presents an experimental characterization of the shape transition or snap-through in mechanically-prestressed bistable laminates. Measurements, conducted using tensile testing and 3D motion capture, show that snap-through in these laminates is a multi-stage phenomenon. An active bistable morphing composite is demonstrated using NiTi shape memory wire actuators in push-pull configuration; activation of one wire resets the second wire as the composite morphs. The set of shape memory actuators not only actuate the composite in both directions, but also act as dampers that enable vibration-free shape transition.
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