过滤谐波机械波传播的弹性超材料设计

Gustavo Rodrigues, H. Weber, L. Driemeier
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引用次数: 0

摘要

超材料的概念最初是针对电磁场的应用,主要目标是开发具有负介电常数、负磁导率和负折射率等特殊性能的材料。渐渐地,其他领域开始使用在自然界中发现的材料中不存在的参数,并将其归类为超材料。因此,声学、光学和力学等领域为这种创新“材料”的应用开辟了空间。为了建立一个合适的模型,我们做了很多努力,同时也在寻找各种可能的应用。光学应用的一个例子是使用保角变换从非均匀各向同性介质中设计具有新功能的器件。在沙漠中创造的海市蜃楼就是这些非同质性的结果。这些研究被认为有助于利用超材料开发隐形斗篷。本文讨论弹性超材料在机械工程中的应用。众所周知,超材料能够过滤谐波传播,并且由于系统的特性,在某些频率范围内出现带隙,因此许多作品呈现出这种能力。然而,如何定义用于超材料设计的参数还不是很清楚。本工作的目的是提出一种设计优化的超材料组件的方法来过滤有限质量链中的机械波传播。分析所研究的质量链的带隙边界以及传播波如何沿着该区域衰减也是本工作的范围。
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Elastic Metamaterial Design to Filter Harmonic Mechanical Wave Propagation
The metamaterial concept was first oriented to electromagnetic field applications and the main objectives were to develop materials with peculiar properties such as negative dielectric constant, negative magnetic permeability and negative refraction index. Gradually, other areas started using parameters that do not exist in the materials found in nature and, classifying them as metamaterials. So, areas such as acoustics, optics and mechanics opened up space for applications of this innovative “material”. Many efforts for an adequate modeling were made searching also for all kinds of possible applications. One example of application in optics is the use of conformal transformation to design devices with new functionalities from non-homogeneous isotropic dielectric media. The mirages created in the desert are the result of these non-homogeneities. These studies are supposed being helpful to develop invisible cloaks using metamaterials. The present work deals with elastic metamaterial application in mechanical engineering. It is well knowing that metamaterials are able to filter harmonic wave propagation and many works present this capability caused by a bandgap that appears in some range of frequency due to the system’s features. However, it is not very clear how the parameters used for the metamaterials design should be defined. The purpose of this work is to propose a methodology to design an optimized metamaterial component to filter the mechanical wave propagation in a finite chain of masses. It is also in the scope of this work to analyze the borders of the bandgap of the studied chain of masses and how the propagated wave is attenuated along this region.
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