Metamaterial beam with dual-action absorbers for tunable and multi-band vibration absorption

IF 2.4 3区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
S. Althamer
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引用次数: 0

Abstract

This paper presents a new class of metamaterial beams of tunable and multi-band vibration absorption. The metamaterial beam is composed of uniform and periodic beam cells with locally resonant substructure called dual-action vibration absorber, DA. A DA vibration absorber comprising of three locally resonant subsystems, 3-DOF spring-mass-damper subsystems, is utilized to generate frequency stopbands to stop elastic wave propagation. The governing equations of motion for a periodic beam cell are derived. Several distinct mass and stiffness configurations for the metamaterial beam with DA vibration absorber are proposed. The dispersion relations and presence of three frequency stopbands are studied. A finite element method based on Timoshenko beam theory is used to model and analyze the introduced metamaterial beam with DA vibration absorber. The frequency response simulations agree well with the projected stopbands of the developed dispersion relations of the mass and stiffness configurations. The concept of the presented metamaterial beam with tunable and multi-stopbands is promising for wave propagation attenuation and control applications.
具有双作用吸收器的超材料梁,可调谐和多波段振动吸收
本文提出了一类可调谐多波段吸振的新型超材料梁。该超材料梁由均匀和周期性梁单元组成,具有局部共振子结构,称为双作用减振器(DA)。利用三自由度弹簧-质量-阻尼器三个局部共振子系统组成的DA吸振器产生频率阻带,阻止弹性波的传播。推导了周期波束单元的运动控制方程。提出了具有DA减振器的超材料梁的几种不同的质量和刚度结构。研究了色散关系和三种频率阻带的存在。采用基于Timoshenko梁理论的有限元方法对引入的带有DA减振器的超材料梁进行了建模和分析。频率响应仿真结果与所建立的质量和刚度结构色散关系的预测阻带吻合较好。所提出的具有可调谐和多阻带的超材料光束的概念在波传播衰减和控制应用中具有前景。
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来源期刊
Journal of Intelligent Material Systems and Structures
Journal of Intelligent Material Systems and Structures 工程技术-材料科学:综合
CiteScore
5.40
自引率
11.10%
发文量
126
审稿时长
4.7 months
期刊介绍: The Journal of Intelligent Materials Systems and Structures is an international peer-reviewed journal that publishes the highest quality original research reporting the results of experimental or theoretical work on any aspect of intelligent materials systems and/or structures research also called smart structure, smart materials, active materials, adaptive structures and adaptive materials.
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