A Flexible Magnetic Soft Continuum Robot for Manipulation and Measurement at Microscale

IF 0.9 4区 医学 Q4 CARDIAC & CARDIOVASCULAR SYSTEMS
Dan Liu, Xiaoming Liu, Jialong Du, Zhaofeng Zuo, Xiaoqing Tang, Qiang Huang, Tatsuo Arai, Yiran Hu, Han Jin
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引用次数: 0

Abstract

Magnetic soft continuum robots have received interest in diverse fields, because of their active steering and remote control capabilities. However, a more challenging task is the development of magnetic soft continuum robots for analyzing the mechanical properties of biological tissue during intravascular treatments. Here, we present a force-controlled soft continuum robot with a magnetic end-effector for measurement of biological mechanical properties. The magnetically driven system contains a set of Helmholtz coils and a permanent magnet. The Helmholtz coils produce an oscillating magnetic field for overcoming friction. The permanent magnet is responsible for steering and providing traction for forward motion. The force on the magnetic tip was calibrated with a soft rod with a known elasticity coefficient. Experimental results indicated that the magnetic soft continuum robot successfully achieved manipulation and stiffness measurement of biological embryos. This strategy for mechanical property analysis of biological tissue expands the opportunities for use of soft continuum robots and broadens the field of functionalization for continuum microrobots.
一种用于微尺度操作和测量的柔性磁性软连续体机器人
磁性软连续体机器人由于其主动转向和远程控制能力而受到了广泛的关注。然而,一个更具挑战性的任务是开发磁性软连续体机器人,用于分析血管内治疗过程中生物组织的力学特性。在这里,我们提出了一个力控软连续体机器人与磁性末端执行器测量生物力学性能。磁驱动系统包含一组亥姆霍兹线圈和一块永磁体。亥姆霍兹线圈产生振荡磁场以克服摩擦。永磁体负责转向并为向前运动提供牵引力。用已知弹性系数的软杆校准磁尖上的力。实验结果表明,磁性软连续体机器人成功地实现了生物胚胎的操纵和刚度测量。这种生物组织力学性能分析策略为软连续体机器人的使用提供了机会,并拓宽了连续体微型机器人的功能化领域。
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来源期刊
Cardiovascular Innovations and Applications
Cardiovascular Innovations and Applications CARDIAC & CARDIOVASCULAR SYSTEMS-
CiteScore
0.80
自引率
20.00%
发文量
222
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