期刊
IEEE TRANSACTIONS ON INDUSTRIAL ELECTRONICS
卷 70, 期 4, 页码 4018-4026出版社
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TIE.2022.3176293
关键词
Inchworm actuator; magnetorheological elastomer (MRE); piezoelectric
In this article, a novel piezoelectric inchworm actuator with magnetorheological elastomer as clamping material is proposed. The actuator achieves high positioning accuracy and large output force through two cam mechanisms for driving and clamping actions. Experimental results demonstrate the great application potential of this actuator in the invasive brain-computer interface.
The piezoelectric inchworm actuator with high-positioning accuracy and large output force is a potential device to implant microelectrode in the invasive brain-computer interface (BCI). However, the traditional piezoelectric inchworm actuator adopts multichannel electrical control signals from external equipment and rigid-to-rigid friction contact to drive, resulting in complex control and uneven friction. To solve the above problems, in this article, magnetorheological elastomer (MRE) is first proposed as the clamping material of the piezoelectric inchworm actuator. An MRE-capillary-cover sandwich structure is adopted to achieve rigid-to-elastomeric clamping. The driving and clamping actions of the actuator are controlled by two cam mechanisms mounted on the same shaft, and a battery can feed the actuator. A kinetic model is established to analyze and predict the actuator motion. Several crucial clamping parameters are explored, and the performance experiments are conducted to evaluate actuator characteristics. A verification experiment is carried out to prove the feasibility of the microelectrode implantation in the pig brain (0.6% agarose gel). The actuator can reach the maximum velocity of 1250.4 mu m/s and the maximum output force of 420 mN; in the forward/backward motion, the minimum step is 0.5837/0.5912 mu m, and the repeatability is 0.0465/0.0469 mu m; thus, the actuator has great application potential in BCI.
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