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The International Journal of Advanced Manufacturing Technology

Erschienen in:

28.04.2021 | ORIGINAL ARTICLE

The hybrid force/position anti-disturbance control strategy for robot abrasive belt grinding of aviation blade base on fuzzy PID control

verfasst von: Hongyao Zhang, Lun Li, Jibin Zhao, Jingchuan Zhao

Erschienen in: The International Journal of Advanced Manufacturing Technology | Ausgabe 11-12/2021

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Abstract

The high-quality grinding of the aviation blade components with the industry robot presents tremendous challenges because of the complexity of blade surface. The hybrid force/position anti-disturbance control strategy is developed base on fuzzy PID control to improve the quality of grinding aviation blades. Firstly, according to gravity compensation technology, the perception of contact force is discussed to solve the contact force between the blades and abrasive belt machine. Then, the hybrid force/position anti-disturbance control strategy is designed to ensure the stability of robot automatic grinding system. The speed gain loop and the dual fuzzy PID control are introduced to enhance the anti-disturbance ability of the control system. Meanwhile, the analysis of stability and steady-state error for force control loop are performed to prove the validation of the feasibility of control system. Eventually, the simulation and experiments are carried out on the robot automatic grinding system. The experimental results reveal that the proposed control strategy can achieve better control effect and grinding quality compared with the traditional PID control.

Vorheriger Artikel Microstructure and mechanical properties of spark plasma diffusion-bonded 5A06Al joints with Al–20Cu–5Si–2Ni interlayer

Nächster Artikel Analytical modeling of grinding force and experimental study on ultrasonic-assisted forming grinding gear

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Titel: The hybrid force/position anti-disturbance control strategy for robot abrasive belt grinding of aviation blade base on fuzzy PID control
verfasst von: Hongyao Zhang
Lun Li
Jibin Zhao
Jingchuan Zhao
Publikationsdatum: 28.04.2021
Verlag: Springer London
Erschienen in: The International Journal of Advanced Manufacturing Technology / Ausgabe 11-12/2021
Print ISSN: 0268-3768
Elektronische ISSN: 1433-3015
DOI: https://doi.org/10.1007/s00170-021-07122-2

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