Large thrust trans-scale precision positioning stage based on inertial stick-slip driving

Zongwei Li; Bowen Zhong; Zhenhua Wang; Ziqi Jin; Lining Sun; Linsen Chen

Large thrust trans-scale precision positioning stage based on inertial stick-slip driving

Zongwei Li
, Bowen Zhong^*
, Zhenhua Wang
, Ziqi Jin
, Lining Sun
, Linsen Chen

^*Corresponding author for this work

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

1 Scopus citations

Abstract

For the smaller thrust, it is difficult to achieve 3D trans-scale precision positioning based on previous stick-slip driving. A large thrust trans-scale precision positioning stage is studied based on the inertial stick-slip driving. The process of the movement is divided into two steps, i.e., the "sliding" phase and the "stickness" phase. In the whole process, the kinematics model of the inertial stick-slip driving is established, and it reveals some factors affecting the velocity of inertial stick-slip driving. Furthermore, a simulation of movement is preformed by Matlab-Simulink software, and the whole process of the inertial stick-slip driving is displayed. After one experimental prototype is designed, the back and forth velocity is tested. Finally, the simulation verifies the accuracy of the kinematics model.

Original language	English
Pages (from-to)	204-209
Number of pages	6
Journal	Transactions of Nanjing University of Aeronautics and Astronautics
Volume	32
Issue number	2
State	Published - 1 Apr 2015
Externally published	Yes

Keywords

Inertial stick-slip driving
PZT actuator
Precision positioning
Trans-scale

Cite this

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title = "Large thrust trans-scale precision positioning stage based on inertial stick-slip driving",

abstract = "For the smaller thrust, it is difficult to achieve 3D trans-scale precision positioning based on previous stick-slip driving. A large thrust trans-scale precision positioning stage is studied based on the inertial stick-slip driving. The process of the movement is divided into two steps, i.e., the {"}sliding{"} phase and the {"}stickness{"} phase. In the whole process, the kinematics model of the inertial stick-slip driving is established, and it reveals some factors affecting the velocity of inertial stick-slip driving. Furthermore, a simulation of movement is preformed by Matlab-Simulink software, and the whole process of the inertial stick-slip driving is displayed. After one experimental prototype is designed, the back and forth velocity is tested. Finally, the simulation verifies the accuracy of the kinematics model.",

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T1 - Large thrust trans-scale precision positioning stage based on inertial stick-slip driving

AU - Li, Zongwei

AU - Zhong, Bowen

AU - Wang, Zhenhua

AU - Jin, Ziqi

AU - Sun, Lining

AU - Chen, Linsen

PY - 2015/4/1

Y1 - 2015/4/1

N2 - For the smaller thrust, it is difficult to achieve 3D trans-scale precision positioning based on previous stick-slip driving. A large thrust trans-scale precision positioning stage is studied based on the inertial stick-slip driving. The process of the movement is divided into two steps, i.e., the "sliding" phase and the "stickness" phase. In the whole process, the kinematics model of the inertial stick-slip driving is established, and it reveals some factors affecting the velocity of inertial stick-slip driving. Furthermore, a simulation of movement is preformed by Matlab-Simulink software, and the whole process of the inertial stick-slip driving is displayed. After one experimental prototype is designed, the back and forth velocity is tested. Finally, the simulation verifies the accuracy of the kinematics model.

AB - For the smaller thrust, it is difficult to achieve 3D trans-scale precision positioning based on previous stick-slip driving. A large thrust trans-scale precision positioning stage is studied based on the inertial stick-slip driving. The process of the movement is divided into two steps, i.e., the "sliding" phase and the "stickness" phase. In the whole process, the kinematics model of the inertial stick-slip driving is established, and it reveals some factors affecting the velocity of inertial stick-slip driving. Furthermore, a simulation of movement is preformed by Matlab-Simulink software, and the whole process of the inertial stick-slip driving is displayed. After one experimental prototype is designed, the back and forth velocity is tested. Finally, the simulation verifies the accuracy of the kinematics model.

KW - Inertial stick-slip driving

KW - PZT actuator

KW - Precision positioning

KW - Trans-scale

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M3 - 文章

AN - SCOPUS:84930736235

SN - 1005-1120

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JO - Transactions of Nanjing University of Aeronautics and Astronautics

JF - Transactions of Nanjing University of Aeronautics and Astronautics

IS - 2

ER -

Large thrust trans-scale precision positioning stage based on inertial stick-slip driving

Abstract

Keywords

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