材料科学
变形
软机器人
弹性体
3D打印
纤维
电介质
软物质
智能材料
纳米技术
壳体(结构)
芯(光纤)
执行机构
光电子学
复合材料
计算机科学
人工智能
化学
物理化学
胶体
作者
Alex Chortos,Jie Mao,J. Howard Mueller,Ehsan Hajiesmaili,Jennifer A. Lewis,David R. Clarke
标识
DOI:10.1002/adfm.202010643
摘要
Abstract Active soft materials that change shape on demand are of interest for a myriad of applications, including soft robotics, biomedical devices, and adaptive systems. Despite recent advances, the ability to rapidly design and fabricate active matter in complex, reconfigurable layouts remains challenging. Here, the 3D printing of core‐sheath‐shell dielectric elastomer fibers (DEF) and fiber bundles with programmable actuation is reported. Complex shape morphing responses are achieved by printing individually addressable fibers within 3D architectures, including vertical coils and fiber bundles. These DEF devices exhibit resonance frequencies up to 700 Hz and lifetimes exceeding 2.6 million cycles. The multimaterial, multicore‐shell 3D printing method opens new avenues for creating active soft matter with fast programable actuation.
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