Optimized piezo-shunted metadamping towards the high-stiff high-damped metamaterial

IF 2.4 3区 材料科学 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Kamal K Bera, Souryadeep Biswas, Arnab Banerjee
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引用次数: 0

Abstract

The phenomena of damping enhancement and higher decay coefficient are obtained by introducing a piezoelectric transducer at the resonating unit of the metamaterial. The difference between the damping ratio of the piezo-transducer controlled and that of the equivalent uncontrolled metamaterial is termed metadamping, and thereby it is used to indicate the enhancement of energy dissipation characteristics. The optimum inductance and resistance of the impregnated piezo-transducer are computed to minimize the response of the outer mass of a unit cell by implementing [Formula: see text] optimization technique. A parametric study is conducted after applying Bloch’s theorem, and the enhancement of damping over the complete Brillouin zone is determined to get a comprehension of the metadamping phenomenon. Impregnation of the piezo-transducer at the resonating unit not only enhances the normalized bandwidth more than twice but also significantly increases the damping emergence when compared to the equivalent uncontrolled metamaterial. This envisioned the promise of high-stiff, high-damped metamaterial for enhanced transient vibration control as well as wider attenuation bandgap.
优化压电顺变超阻尼,实现高刚度高阻尼超材料
通过在超材料的谐振单元引入压电传感器,可以获得阻尼增强和更高的衰减系数。压电传感器受控超材料的阻尼比与等效非受控超材料的阻尼比之差被称为超阻尼,因此它被用来表示能量耗散特性的增强。通过实施[公式:见正文]优化技术,计算出浸渍压电传感器的最佳电感和电阻,以最小化单元室外部质量的响应。在应用布洛赫定理后进行了参数研究,并确定了整个布里渊区的阻尼增强,从而理解了元阻尼现象。与等效的非受控超材料相比,在谐振单元浸渍压电传感器不仅能将归一化带宽提高一倍以上,还能显著增加阻尼的出现。这预示着高刚性、高阻尼超材料有望增强瞬态振动控制,并拓宽衰减带隙。
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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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