Optimization of Vibration Band Gaps in Damped Lattice Metamaterials

IF 1.4 4区工程技术 Q3 ENGINEERING, CIVIL Latin American Journal of Solids and Structures Pub Date : 2023-07-17 DOI:10.1590/1679-78257486

Rubens Gonçalves Salsa Junior, T. P. Sales, D. Rade

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Abstract

Recent research on structural dynamics has steered towards elastic metamaterials, as band gap phenomena can be explored to mitigate vibration. A challenge in their design is the determination of configurations resulting in wider band gaps in lower frequency ranges. Since some level of damping is unavoidable in any real engineering structure, it is necessary to extend the current methodology of optimal design to provide a deeper understanding of how damping may affect the desired performance. Therefore, the main objective of this article is to propose and evaluate a numerical procedure for the optimization of band gaps in damped metamaterials. Specifically, a modified objective function that incorporates an evanescence index integral is used and two optimization schemes are implemented, each reflecting whether the structure is undamped or damped. It is shown that the optimal damped metamaterial has wider range of attenuation than the undamped optimal one, but with decreased attenuation levels. The optimization procedure is validated numerically for a finite structure, demonstrating reduced transmissibility of wave motions.

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优化阻尼晶格超材料的振动带隙

最近的结构动力学研究转向了弹性超材料，因为可以利用带隙现象来减轻振动。超材料设计中的一个挑战是如何确定在较低频率范围内产生更宽带隙的配置。由于在任何实际工程结构中都不可避免地存在一定程度的阻尼，因此有必要扩展当前的优化设计方法，以便更深入地了解阻尼如何影响所需的性能。因此，本文的主要目的是提出并评估用于优化阻尼超材料带隙的数值程序。具体来说，本文使用了包含衰减指数积分的修正目标函数，并实施了两种优化方案，每种方案都反映了结构是无阻尼还是有阻尼。结果表明，最佳阻尼超材料的衰减范围比无阻尼超材料更广，但衰减水平却有所降低。对有限结构的优化程序进行了数值验证，结果表明波浪运动的传播性降低了。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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