基于3D打印铁磁流体的软执行器

Ela Sachyani Keneth, A. R. Epstein, Michal Soreni Harari, R. S. Pierre, S. Magdassi, S. Bergbreiter
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引用次数: 5

摘要

这项工作展示了3D打印的软致动器,具有复杂的形状和使用外部磁场的远程致动。我们制造了一种新型的基于铁磁流体的驱动器,取代了在聚合物基体中嵌入磁性颗粒的方法,该驱动器可以将流体移动到驱动器的不同位置以影响驱动器的响应。利用3D打印管研究了铁磁流体和3D打印材料对简单执行器运动的影响。此外,我们3D打印更复杂的执行器模仿人手和蠕虫,以展示更复杂的运动。
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3D Printed Ferrofluid Based Soft Actuators
This work demonstrates 3D printed soft actuators with complex shapes and remote actuation using an external magnetic field. Instead of embedding magnetic particles in a polymeric matrix, we fabricated a novel ferrofluid-based actuator, in which the fluid can be moved to different locations in the actuator to affect actuator response. We studied the effect of both the ferrofluid and the 3D printed material on the motion of simple actuators using 3D printed tubes. In addition, we 3D printed more complex actuators mimicking a human hand and a worm to demonstrate more complex motion.
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