利用由旋转磁场驱动的链状磁性粒子的旋转来实现磁流变流体的运动

2015 Transducers - 2015 18th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS) Pub Date : 2015-06-21 DOI:10.1109/TRANSDUCERS.2015.7181320

F. Hsu, Chi-En Lu, W. Fang

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引用次数: 0

摘要

本研究是MR流体(MR流体:带有磁性颗粒的液体甘油聚合物)在MEMS器件上应用的延伸[1-2]，提出了一种利用链状磁性颗粒旋转的新型MR流体移动技术(图1)。在面内动态磁场的驱动下，磁流变液内部的链状磁颗粒向面外旋转，进一步促进磁流变液的运动(图1b)。磁粉的重量分数和链长可以调节磁粉的运动速度和方向;(2)外加磁场强度和角速度(图1b);(3)螺旋槽型(图1c-d)。在无通道、顺时针螺旋通道和逆时针螺旋通道的三种PDMS球形基板[3]上展示了MR流体的运动(图1b-d)。测量结果汇总于表1。定量预测和精确控制磁流变液的运动仍然需要详细的研究。

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Movement of magnetorheological fluid using the rotation of chainlike magnetic-particles driven by rotation magnetic field

This study is an extension of MR fluid (MR fluid: liquid glycerol polymer with magnetic-particles) applications on MEMS devices [1-2], presenting a novel moving technology for MR fluid using the rotation of chainlike magnetic particles (Fig.1). When driven by in-plane dynamic magnetic field, the chainlike magnetic particles inside MR fluid are rotated out-of-plane and further encourage the motion of MR fluid (Fig.1b). MR fluid movement speed and direction can be modulated by (1) weight fraction and chain length of magnetic powder; (2) strength and angular speed of applied magnetic field (Fig.1b); (3) pattern of spiral channel (Fig.1c-d). MR fluid movements are demonstrated on three PDMS dome shaped substrates [3] with no channel, clockwise spiral and counterclockwise spiral channels (Fig.1b-d). Measurement results are summarized in Table 1. Detail investigations are still required to quantitatively predict and precisely control the movement of the MR fluid.

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2015 Transducers - 2015 18th International Conference on Solid-State Sensors, Actuators and Microsystems (TRANSDUCERS)

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