An improved active damping of fan blade using piezoelectric MFC actuators and PSO optimization

This study introduces piezoelectric actuators for blade vibration control and aims to establish both experimental and numerical benchmarks for active vibration control with macro fiber composite (MFC) piezoelectric actuators on engine blades. It also involves optimizing the placement of MFC actuator...

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Bibliographic Details
Published in:Mechanics of advanced materials and structures 2024-12, Vol.31 (28), p.10614-10623
Main Authors: Bendine, Kouider, Wei, Yu-Jie, Wang, Xiang, Chen, Min, Zhang, Shun-Qi
Format: Article
Language:English
Subjects:
Active damping
active vibration control
Fiber composites
finite element
MFC
optimization
Piezoelectric actuators
Proportional integral derivative
pSO
Vibration control
Vibration damping
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Summary:This study introduces piezoelectric actuators for blade vibration control and aims to establish both experimental and numerical benchmarks for active vibration control with macro fiber composite (MFC) piezoelectric actuators on engine blades. It also involves optimizing the placement of MFC actuators. Experimental and numerical assessments were conducted on a 3D-printed fan model with integrated piezoelectric MFC actuators. The results confirm the effectiveness of the proposed approach, aided by a PID controller, in significantly reducing and damping blade vibrations. This comprehensive study offers a promising solution to enhance aviation engine performance and longevity.
ISSN:1537-6494
1537-6532
DOI:10.1080/15376494.2023.2294162