Optimization of Natural Frequencies and Sound Power of Beams Using Functionally Graded Material

Q2 Physics and Astronomy Advances in Acoustics and Vibration Pub Date : 2014-02-20 DOI:10.1155/2014/752361

Nabeel Alshabatat, K. Naghshineh

引用次数: 18

Abstract

This paper presents a design method to optimize the material distribution of functionally graded beams with respect to some vibration and acoustic properties. The change of the material distribution through the beam length alters the stiffness and the mass of the beam. This can be used to alter a specific beam natural frequency. It can also be used to reduce the sound power radiated from the vibrating beam. Two novel volume fraction laws are used to describe the material volume distributions through the length of the FGM beam. The proposed method couples the finite element method (for the modal and harmonic analysis), Lumped Parameter Model (for calculating the power of sound radiation), and an optimization technique based on Genetic Algorithm. As a demonstration of this technique, the optimization procedure is applied to maximize the fundamental frequency of FGM cantilever and clamped beams and to minimize the sound radiation from vibrating clamped FGM beam at a specific frequency.

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用功能梯度材料优化光束的固有频率和声功率

本文提出了一种考虑某些振动和声学特性的功能梯度梁材料分布优化的设计方法。材料分布随梁长变化会改变梁的刚度和质量。这可以用来改变一个特定的光束固有频率。它还可以用来降低振动梁辐射的声功率。采用两个新的体积分数定律来描述材料在FGM梁长度上的体积分布。该方法将有限元法(用于模态和谐波分析)、集总参数模型(用于计算声辐射功率)和基于遗传算法的优化技术相结合。作为该技术的演示，优化程序应用于最大化FGM悬臂梁和箝位梁的基频，并最小化在特定频率下振动箝位FGM梁的声辐射。

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来源期刊

Advances in Acoustics and Vibration ACOUSTICS-

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期刊介绍： The aim of Advances in Acoustics and Vibration is to act as a platform for dissemination of innovative and original research and development work in the area of acoustics and vibration. The target audience of the journal comprises both researchers and practitioners. Articles with innovative works of theoretical and/or experimental nature with research and/or application focus can be considered for publication in the journal. Articles submitted for publication in Advances in Acoustics and Vibration must neither have been published previously nor be under consideration elsewhere. Subject areas include (but are not limited to): Active, semi-active, passive and combined active-passive noise and vibration control Acoustic signal processing Aero-acoustics and aviation noise Architectural acoustics Audio acoustics, mechanisms of human hearing, musical acoustics Community and environmental acoustics and vibration Computational acoustics, numerical techniques Condition monitoring, health diagnostics, vibration testing, non-destructive testing Human response to sound and vibration, Occupational noise exposure and control Industrial, machinery, transportation noise and vibration Low, mid, and high frequency noise and vibration Materials for noise and vibration control Measurement and actuation techniques, sensors, actuators Modal analysis, statistical energy analysis, wavelet analysis, inverse methods Non-linear acoustics and vibration Sound and vibration sources, source localisation, sound propagation Underwater and ship acoustics Vibro-acoustics and shock.