论文信息 - Vibration suppression in metastructures using zigzag inserts optimized by genetic algorithms

Vibration suppression in metastructures using zigzag inserts optimized by genetic algorithms

Metastructures are known to provide considerable vibration attenuation for mechanical systems. With the optimization of the internal geometry of metastructures, the suppression performance of the host structure increases. While the zigzag inserts have been shown to be efficient for vibration attenuation, the geometric properties of the inserts affect the suppression performance in a complex manner when attached to the host structure. This paper presents a genetic algorithm based optimization study conducted to come up with the most efficient geometric properties of the zigzag inserts. The inserts studied in this paper are simply cantilever zigzag structures with a mass attached to the unsupported tips. Numerical simulations are run to show the efficiency of the optimization process.

[1] Onur Avci,et al. Observations from Vibration Testing of In-Situ Structures , 2006 .

[2] P. Frank Pai,et al. Metamaterial-based Broadband Elastic Wave Absorber , 2010 .

[3] Daniel J. Inman,et al. Analytical Modeling and Experimental Verification of the Vibrations of the Zigzag Microstructure for Energy Harvesting , 2011 .

[4] M. Ruzzene,et al. Internally resonating lattices for bandgap generation and low-frequency vibration control , 2013 .

[5] Onur Avci,et al. Vibrations Assessment of a Hospital Floor for a Magnetic Resonance Imaging Unit (MRI) Replacement , 2013 .

[6] Daniel J. Inman,et al. Magnetoelastic metastructures for passive broadband vibration suppression , 2015, Smart Structures.

[7] Onur Avci,et al. Simplified Vibration Serviceability Evaluation of Slender Monumental Stairs , 2015 .

[8] Onur Avci,et al. Amplitude-Dependent Damping in Vibration Serviceability: Case of a Laboratory Footbridge , 2016 .

[9] Onur Avci,et al. Optimization of chiral lattice based metastructures for broadband vibration suppression using genetic algorithms , 2016 .

[10] Onur Avci,et al. Optimization of linear zigzag insert metastructures for low-frequency vibration attenuation using genetic algorithms , 2017 .