Design and characterization of a microelectromechanical system electro-thermal linear motor with interlock mechanism for micro manipulators

Tengjiang Hu; Yulong Zhao; Xiuyuan Li; You Zhao; Yingwei Bai

doi:10.1063/1.4943266

Design and characterization of a microelectromechanical system electro-thermal linear motor with interlock mechanism for micro manipulators

Tengjiang Hu
, Yulong Zhao
, Xiuyuan Li
, You Zhao
, Yingwei Bai

School of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

9 Scopus citations

Abstract

The design, fabrication, and testing of a novel electro-thermal linear motor for micro manipulators is presented in this paper. The V-shape electro-thermal actuator arrays, micro lever, micro spring, and slider are introduced. In moving operation, the linear motor can move nearly 1 mm displacement with 100 μm each step while keeping the applied voltage as low as 17 V. In holding operation, the motor can stay in one particular position without consuming energy and no creep deformation is found. Actuation force of 12.7 mN indicates the high force generation capability of the device. Experiments of lifetime show that the device can wear over two million cycles of operation. A silicon-on-insulator wafer is introduced to fabricate a high aspect ratio structure and the chip size is 8.5 mm × 8.5 mm × 0.5 mm.

Original language	English
Article number	035001
Journal	Review of Scientific Instruments
Volume	87
Issue number	3
DOIs	https://doi.org/10.1063/1.4943266
State	Published - 1 Mar 2016

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title = "Design and characterization of a microelectromechanical system electro-thermal linear motor with interlock mechanism for micro manipulators",

abstract = "The design, fabrication, and testing of a novel electro-thermal linear motor for micro manipulators is presented in this paper. The V-shape electro-thermal actuator arrays, micro lever, micro spring, and slider are introduced. In moving operation, the linear motor can move nearly 1 mm displacement with 100 μm each step while keeping the applied voltage as low as 17 V. In holding operation, the motor can stay in one particular position without consuming energy and no creep deformation is found. Actuation force of 12.7 mN indicates the high force generation capability of the device. Experiments of lifetime show that the device can wear over two million cycles of operation. A silicon-on-insulator wafer is introduced to fabricate a high aspect ratio structure and the chip size is 8.5 mm × 8.5 mm × 0.5 mm.",

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T1 - Design and characterization of a microelectromechanical system electro-thermal linear motor with interlock mechanism for micro manipulators

AU - Hu, Tengjiang

AU - Zhao, Yulong

AU - Li, Xiuyuan

AU - Zhao, You

AU - Bai, Yingwei

PY - 2016/3/1

Y1 - 2016/3/1

N2 - The design, fabrication, and testing of a novel electro-thermal linear motor for micro manipulators is presented in this paper. The V-shape electro-thermal actuator arrays, micro lever, micro spring, and slider are introduced. In moving operation, the linear motor can move nearly 1 mm displacement with 100 μm each step while keeping the applied voltage as low as 17 V. In holding operation, the motor can stay in one particular position without consuming energy and no creep deformation is found. Actuation force of 12.7 mN indicates the high force generation capability of the device. Experiments of lifetime show that the device can wear over two million cycles of operation. A silicon-on-insulator wafer is introduced to fabricate a high aspect ratio structure and the chip size is 8.5 mm × 8.5 mm × 0.5 mm.

AB - The design, fabrication, and testing of a novel electro-thermal linear motor for micro manipulators is presented in this paper. The V-shape electro-thermal actuator arrays, micro lever, micro spring, and slider are introduced. In moving operation, the linear motor can move nearly 1 mm displacement with 100 μm each step while keeping the applied voltage as low as 17 V. In holding operation, the motor can stay in one particular position without consuming energy and no creep deformation is found. Actuation force of 12.7 mN indicates the high force generation capability of the device. Experiments of lifetime show that the device can wear over two million cycles of operation. A silicon-on-insulator wafer is introduced to fabricate a high aspect ratio structure and the chip size is 8.5 mm × 8.5 mm × 0.5 mm.

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JO - Review of Scientific Instruments

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Design and characterization of a microelectromechanical system electro-thermal linear motor with interlock mechanism for micro manipulators

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