气动学
变形
3D打印
软机器人
喷嘴
材料科学
弹性体
制作
机械工程
3d打印机
软物质
工程制图
3d打印
墨水池
热塑性聚氨酯
执行机构
计算机科学
旋转(数学)
软质材料
频道(广播)
气动执行机构
挤压
熔丝制造
梳理
快速成型
纳米技术
机器人
螺旋(铁路)
熔融沉积模型
工程类
易熔合金
雕刻
Lift(数据挖掘)
伺服电动机
辅助
作者
Jackson K. Wilt,Natalie Larson,Jennifer A. Lewis
标识
DOI:10.1002/adma.202510141
摘要
The rapid design and fabrication of soft robotic matter is of growing interest for shape morphing, actuation, and wearable devices. Here, we report a facile fabrication method for creating soft robotic materials with embedded pneumatics that exhibit programmable shape morphing behavior. Using rotational multimaterial 3D printing, asymmetrical core-shell filaments composed of elastomeric shells and fugitive channels are patterned in 1D, 2D, and 2.5D motifs. By precisely controlling the nozzle design, rotation rate, extrusion rate, and print path, one can control the local orientation, shape, and cross-sectional area of the patterned fugitive channel along each printed filament. Once the elastomeric matrix is cured, the fugitive ink is removed, leaving behind embedded channels that facilitate pneumatic actuation. Using a connected Fermat spiral pathing approach, one can automatically generate desired print paths required for more complex soft robots, such as hand-inspired grippers. Our integrated design and printing approach enables one to rapidly build soft robotic matter that exhibits myriad shape morphing transitions on demand.
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