Development of a MEMS-based electro-rheological microfinger system with an alternating pressure source

机译：具有交替压力源的基于MEMS的电流变微指系统的开发

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This paper presents a novel MEMS-based electro-rheological (ER) microfinger system with an alternating pressure source for multiple microactuator systems. Based on rectifying alternating flow by the ER microvalves, the ER microfinger system enables half number and small size of supply and return pipes, which is suitable for multiple microactuator systems. The MEMS-based finger part was realized by newly developed PDMS micromolding process featuring high-aspect-ratio and three-dimensional structures. This is the first time demonstration of bi-directional, large-displacement of 1.1 mm and high-speed (rise time of 1.1 s) bending motion of the fabricated 1.6-mm long ER microfinger.

机译：本文介绍了一种新颖的基于MEMS的电流变（ER）微指系统，该系统具有用于多个微执行器系统的交流压力源。基于ER微型阀对交变流进行整流，ER微型指系统可实现一半数量且小尺寸的供料管和回流管，适用于多个微执行器系统。基于MEMS的手指部分是通过新开发的具有高长宽比和三维结构的PDMS微成型工艺实现的。这是所制造的1.6毫米长ER微指的双向，大位移1.1毫米和高速（上升时间为1.1 s）弯曲运动的首次演示。

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《International Conference on Solid-State Sensors, Actuators and Microsystems》|2015年|823-826|共4页
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Miyoshi T.; Yoshida K.; Kim J.-W.; Eom S.I.; Yokota S.;
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Alternating Pressure Source; Electro-Rheological Fluid (ERF); Hydraulic Actuators; MEMS;

机译：交流压力源;流变流体（ERF）;液压执行器; MEMS;

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1. An MEMS-based multiple electro-rheological bending actuator system with an alternating pressure source [J] . Miyoshi Tomoya, Yoshida Kazuhiro, Kim Joon-wan, Sensors and Actuators, A. Physical . 2016,第Null期

机译：具有交替压力源的基于MEMS的多电流变弯曲致动器系统
2. A novel bending microactuator with integrated flexible electro-rheological microvalves using an alternating pressure source for multi-actuator systems [J] . Microsystem technologies . 2020,第5期

机译：一种新型弯曲微致动器，具有用于多致动器系统的交流压力的集成柔性电流变微型磁铁。
3. Proposal of a multiple ER microactuator system using an alternating pressure source [J] . Miyoshi Tomoya, Yoshida Kazuhiro, Eom Sang In, Sensors and Actuators, A. Physical . 2015,第Null期

机译：使用交流压力源的多ER微执行器系统的建议
4. DEVELOPMENT OF A MEMS-BASED ELECTRO-RHEOLOGICAL MICROFINGER SYSTEM WITH AN ALTERNATING PRESSURE SOURCE [C] . T. Miyoshi, K. Yoshida, J.-W. Kim, International Conference on Solid-State Sensors, Actuators and Microsystems . 2015

机译：具有交流压源的基于MEMS的电流流变微生素系统的研制
5. Solution nebulization device (ultrasonic nebulizer) for inductively coupled plasma spectrometry and alternate plasma source (low-pressure inductively coupled plasma) for mass spectrometry. [D] . Castillano, Maria Theresa M. 1994

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6. Randomised controlled trial of alternating pressure mattresses compared with alternating pressure overlays for the prevention of pressure ulcers: PRESSURE (pressure relieving support surfaces) trial [O] . Jane Nixon, Gillian Cranny, Cynthia Iglesias, 2006

机译：交替压力床垫与交替压力覆盖物比较用于预防压疮的随机对照试验：压力（压力释放支撑面）试验
7. Randomised, controlled trial of alternating pressure mattresses compared with alternating pressure overlays for the prevention of pressure ulcers: PRESSURE (pressure relieving support surfaces) trial [O] . Nixon, Jane, Cranny, Gillian, Iglesias, Cynthia, 2007

机译：交替压力床垫与交替压力覆盖物比较用于预防压疮的随机对照试验：压力（压力释放支撑面）试验

Development of a MEMS-based electro-rheological microfinger system with an alternating pressure source

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