Topological design and magnetic tunability of a novel cross‐like holes phononic crystal with low frequency
Gang Zhang, Yuanwen Gao
Abstract
In this paper, a novel type of cross‐like holes phononic crystal with excellent band gap characteristics, machinability and stability is optimized and designed based on genetic algorithm. The improved genetic algorithm is used to enlarge the band gap in the low frequency range, and the transmission spectrum of the structure is calculated by finite element method. In addition, the magnetorheological elastomer was introduced to optimize the spatial magnetic field distribution and study the influence of magnetic field on the band gap. This work provides useful guidance for the topological design of other types of intelligent phononic crystals.
Topics & Concepts
Magnetorheological elastomerBand gapMaterials scienceFinite element methodMachinabilityMagnetic fieldTopology (electrical circuits)Crystal (programming language)Frequency bandAcoustic metamaterialsAcousticsMagnetorheological fluidOptoelectronicsStructural engineeringComputer sciencePhysicsEngineeringElectrical engineeringProgramming languageQuantum mechanicsAntenna (radio)MetallurgyMachiningAcoustic Wave Phenomena ResearchNoise Effects and ManagementHearing Loss and Rehabilitation