High-stiffness reconfigurable surfaces based on bistable element assembly and bi-compatible truss attachment

IF 4.3 3区 工程技术 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY Extreme Mechanics Letters Pub Date : 2024-07-06 DOI:10.1016/j.eml.2024.102187
Peidong Zhang , Tong Zhou , Kuan Zhang , Yifei Luo , Yang Li
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Abstract

Reconfigurable surfaces contribute to multi-task robotic platforms, such as reconfigurable phased array antennas with variable aperture, by morphing between multiple specified shapes. Controlling each tile to approximate the variating shape of target surfaces requires a large number of accurate actuators. Previous research has demonstrated employing bistable-element-assembly to form reconfigurable surfaces for significant actuation simplification but suffering from low out-of-plane stiffness resulting in the lack of load-bearing capacity for carrying functional units with good mechanical accuracy. This paper proposes a design framework for tile-assembling bistable (TAB) surfaces with bi-compatible truss attachment for two prescribable stable configurations. The bistability comes from joining surface tiles with bistable elements, which contributes to easy actuation with fewer inaccurate actuators. Bi-compatible truss structures, which are only kinematically compatible at the two prescribed states, are introduced to enhance the out-of-plane stiffness of the TAB surface and improve its load-bearing capacity. Additionally and consequently, the kinematic determinacy of the reconfigurable surfaces is increased by the truss introduction, where bistable elements control the metric while truss structures dictate the principal curvature of the surface. This diminishes the redundant degrees of freedom with enhanced shape-approximation and reconfiguration-coordination. Four prototypes are designed and manufactured, which are a three-tile by three-tile (3 × 3) TAB surface that is stable at flat and spherical configurations, a 5 × 5 TAB surface with flat and spherical stable configurations, a 3 × 3 TAB surface that is stable at the flat and saddle configurations, and a 3 × 3 TAB surface that is stable at the sphere and saddle shapes. The out-of-plane stiffness, easiness of actuation, and shape accuracy of all prototypes are evaluated and show promises for real engineering applications.

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基于双稳态元件组件和双兼容桁架连接的高刚度可重构表面
可重构表面通过在多种指定形状之间变形,为多任务机器人平台(如具有可变孔径的可重构相控阵天线)做出了贡献。要控制每个瓦片逼近目标表面的变化形状,需要大量精确的致动器。以往的研究表明,采用双稳态元件组装来形成可重新配置的表面,可显著简化致动器,但平面外刚度较低,导致缺乏承载能力,无法承载具有良好机械精度的功能单元。本文提出了一种瓦片组装双稳态(TAB)表面的设计框架,该框架具有双兼容桁架连接,可实现两种可规定的稳定配置。双稳态性来自于用双稳态元件连接表面瓦片,这有助于使用较少的不精确致动器轻松致动。双兼容桁架结构仅在两种规定状态下运动兼容,其引入是为了增强 TAB 表面的平面外刚度,提高其承载能力。此外,通过引入桁架结构,可重构表面的运动学确定性也随之提高,其中双稳态元素控制度量,而桁架结构决定表面的主曲率。这减少了多余的自由度,增强了形状逼近和重新配置的协调性。我们设计并制造了四个原型,分别是在平面和球面配置下稳定的三瓦片乘三瓦片(3 × 3)TAB 表面、具有平面和球面稳定配置的 5 × 5 TAB 表面、在平面和鞍形配置下稳定的 3 × 3 TAB 表面,以及在球面和鞍形形状下稳定的 3 × 3 TAB 表面。我们对所有原型的平面外刚度、致动的简易性和形状精度进行了评估,结果表明它们在实际工程应用中大有可为。
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来源期刊
Extreme Mechanics Letters
Extreme Mechanics Letters Engineering-Mechanics of Materials
CiteScore
9.20
自引率
4.30%
发文量
179
审稿时长
45 days
期刊介绍: Extreme Mechanics Letters (EML) enables rapid communication of research that highlights the role of mechanics in multi-disciplinary areas across materials science, physics, chemistry, biology, medicine and engineering. Emphasis is on the impact, depth and originality of new concepts, methods and observations at the forefront of applied sciences.
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