Mechanically-prestressed pneumatically-driven bistable soft actuators

IF 2.2 4区 计算机科学 Q2 ENGINEERING, MECHANICAL
Yitong Zhou, Zefeng Xu
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引用次数: 1

Abstract

Bistable soft robots are gaining momentum for their fast speed. This study presents a novel asymmetric mechanically-prestressed, pneumatically-driven, bistable laminated soft actuator. Its two orthogonal stable shapes are created by prestretching two orthogonal elastomer matrix composites (EMCs) before bonding them to a thin core layer. Two fluidic layers with fluid channels are bonded on either side of the core layer to actuate and trigger the snap-through process of the actuator. An analytical model is proposed as follows: the actuator net energy is calculated based on polynomials with unknown coefficients, and the stable shapes of the actuator are computed as a result of pneumatic pressure and external loads with the Rayleigh-Ritz method. Bistable actuators are fabricated with different prestrains, and motion capture and tensile loading experiments are conducted for model validation. A gripper is fabricated with two bistable actuators and demonstrated to grasp a variety of objects. Sensitivity studies are performed to identify the actuator response as a function of a variety of design parameters.
机械预应力气动双稳态软致动器
双稳态软机器人因其快速而获得动力。本研究提出了一种新型的非对称机械预应力、气动驱动、双稳态叠层软致动器。它的两个正交稳定形状是通过在将两个正交弹性体基体复合材料(EMCs)粘合到薄芯层之前预拉伸而形成的。具有流体通道的两个流体层结合在芯层的任一侧,以致动和触发致动器的卡扣过程。提出了一个分析模型:基于未知系数多项式计算致动器净能量,并使用瑞利-里兹方法计算致动器在气压和外部载荷作用下的稳定形状。利用不同的预应变制作了双稳态执行器,并进行了运动捕捉和拉伸加载实验以进行模型验证。夹具由两个双稳态致动器制成,并被证明可以抓取各种物体。进行灵敏度研究,以确定作为各种设计参数的函数的致动器响应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
5.60
自引率
15.40%
发文量
131
审稿时长
4.5 months
期刊介绍: Fundamental theory, algorithms, design, manufacture, and experimental validation for mechanisms and robots; Theoretical and applied kinematics; Mechanism synthesis and design; Analysis and design of robot manipulators, hands and legs, soft robotics, compliant mechanisms, origami and folded robots, printed robots, and haptic devices; Novel fabrication; Actuation and control techniques for mechanisms and robotics; Bio-inspired approaches to mechanism and robot design; Mechanics and design of micro- and nano-scale devices.
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