ON THE SOLITARY WAVE DYNAMICS OF TENSEGRITY LATTICES WITH STIFFENING RESPONSE: A NUMERICAL STUDY

Proceedings of the 7th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COMPDYN 2015) Pub Date : 2019-06-01 DOI:10.7712/120119.7019.18382

A. Micheletti, G. Ruscica, A. Amendola, Ida Mascolo, F. Fraternali

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引用次数: 1

Abstract

We present some peculiar results about the solitary-wave dynamics of novel tensegrity-based metamaterials. It has been previously shown that one-dimensional chains of triangu-lar tensegrity prisms with stiffening behavior support the propagation of compressive solitarywaves. We show that such result can be generalized to two-dimensional and three-dimensionalmodular tensegrity lattices composed of polygonal and polyhedral units. Differently from theone-dimensional case, the stiffening response of these lattices originates at the interface be-tween adjacent units, not from the unit themselves. We present numerical results on the responseto impulsive loads of slender assemblies composed by square units in two-dimensions, and cu-bic units in three-dimensions. We observed compact compressive waves forming at impactlocations, together with localized thermalization effects. Such compact waves propagate withnearly constant speed and energy, while maintaining their shape, and emerge from collisionwith other compact waves almost unaltered, losing a small fraction of their energy. These re-sults suggest the investigation of the dynamics of regular and quasi-regular tessellations formedby other types of polygonal and polyhedral units.

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带加劲响应的张拉整体格的孤立波动力学:数值研究

我们提出了一些关于新型张拉整体超材料的孤立波动力学的奇特结果。以前的研究表明，具有加劲行为的三角形张拉整体棱镜的一维链支持压缩孤立波的传播。我们证明了这一结果可以推广到由多边形和多面体单元组成的二维和三维模张拉整体格。与一维情况不同，这些网格的加劲响应来自相邻单元之间的界面，而不是来自单元本身。本文给出了由二维方形单元和三维立方单元组成的细长装配体对脉冲载荷响应的数值结果。我们观察到在撞击位置形成紧凑的压缩波，以及局部热化效应。这种致密波以几乎恒定的速度和能量传播，同时保持其形状，并且在与其他致密波碰撞时几乎没有改变，只是损失了一小部分能量。这些结果提示了其他类型的多边形和多面体单元形成的规则和准规则镶嵌动力学的研究。

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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Proceedings of the 7th International Conference on Computational Methods in Structural Dynamics and Earthquake Engineering (COMPDYN 2015)

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