Untethered Soft Crawling Robots Driven by Magnetic Anisotropy

Fanping Sui, Dongkai Wang, Ruiqi Guo, Renxiao Xu, Liwei Lin
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Abstract

We herein present a soft crawling robot based on the design of the magnetic anisotropic actuation to realize untethered crawling movements. With the self-assembled iron filing mesh tuned magnetically and sealed in silicone rubber matrix, we are able to fabricate a large quantity of crawling robots in parallel by a molding process. The magnetic anisotropy is established in the body of the robot to induce the magnetic actuation. Under an alternating magnetic field near the resonant frequency of the robot, the legs of the robot can bend and release repeatedly to achieve a forward moving velocity of ~0.19 cm/s at 2.5 Hz and 46 mT. In addition, the soft crawling robot is robust enough such that even crushed by a 1.8-ton automobile, it can still be fully functional. We envision the magnetic soft robot design and working principle can be further studied for the advancements of micro-robotics research.
磁各向异性驱动的无系绳软爬行机器人
本文提出了一种基于磁各向异性驱动设计的柔性爬行机器人,实现无系绳爬行运动。利用自组装的磁调谐铁锉网和硅橡胶基体密封,我们可以通过模塑工艺并行制造大量的爬行机器人。在机器人体内建立磁各向异性来诱导磁致动。在接近机器人谐振频率的交变磁场下,机器人的腿可以反复弯曲和释放,以2.5 Hz和46 mT的速度实现~0.19 cm/s的向前移动速度。此外,软爬行机器人足够坚固,即使被1.8吨重的汽车压碎,它仍然可以完全发挥功能。展望了磁性软机器人的设计和工作原理的进一步研究,为微机器人研究的进一步发展奠定了基础。
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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