Design and analysis of a new tactile device featuring Magneto-Rheological fluid in control force of robotic surgery

Science and Technology Development Journal Pub Date : 2019-07-23 DOI:10.32508/STDJ.V22I2.1342

P. Do, L. T. Thang

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Abstract

In this paper, a new artificial skin tissue device which can emulate the stiffness of several organs of human is proposed and analyzed utilizing magneto-rheological (MR) fluid (MR skin). The proposed skin could be applied for the robot-assisted surgery manipulated by haptic devices as a controllable tactile sensor. The method in this paper is design of multi- embedded valve networks inside the structure of the master actuator. These valves use the flow mode and shear mode of MR for pressure control. Deformation equation of the MR skin is derived and the external force contacting the MR skin is also analyzed. After formulation, the proposed tactile display is optimized by using the finite element method software (ANSYS ADPL). It is shown via the optimization that the results can satisfy the initial requirements of the design. From the simulation results, the adjacent coils with similar setup show outstanding results compared with adjacent coils with discordant setup. This directly indicates that the proposed MR skin structure is feasible in the manufacturing and is applicable to haptic devices, especially those used for robotic surgery.

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新型磁流变流体触觉装置在机器人手术力控制中的设计与分析

提出了一种利用磁流变液(MR skin)模拟人体多个器官刚度的新型人造皮肤组织装置，并对其进行了分析。该皮肤可作为一种可控的触觉传感器，应用于由触觉装置操纵的机器人辅助手术。本文的方法是在主执行器的结构内部设计多嵌入式阀网络。这些阀门使用MR的流动模式和剪切模式进行压力控制。推导了磁流变蒙皮的变形方程，分析了接触磁流变蒙皮的外力。设计完成后，利用有限元软件ANSYS ADPL对所提出的触觉显示器进行优化。优化结果表明，优化结果能够满足设计的初始要求。从仿真结果来看，设置相似的相邻线圈比设置不一致的相邻线圈效果更好。这直接表明所提出的MR皮肤结构在制造中是可行的，并且适用于触觉设备，特别是用于机器人手术的触觉设备。

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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Science and Technology Development Journal

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