具有超越最近连接的离散欧拉-伯努利梁网格

arXiv - MATH - Mathematical Physics Pub Date : 2024-09-11 DOI:arxiv-2409.07173

R. G. Edge, E. Paul, K. H. Madine, D. J. Colquitt, T. A. Starkey, G. J. Chaplain

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引用次数: 0

摘要

弹性波在离散周期性欧拉-伯努利质束晶格上传播的特点是质束交界处耦合的平移自由度和旋转自由度之间的竞争。我们通过将连接点与近邻空间连接耦合来影响该系统的动力学，从而在互易空间中提供了对离散极值的自由度，促进了有趣的离散关系的出现。本文介绍了具有任意整数阶非局部空间连接组合的无限单原子质量光束链的广义色散关系。我们证明，质量和旋转惯性之间的竞争动力通道驱动着第一布里渊区内零群速度模式的位置和存在。

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Discrete Euler-Bernoulli Beam Lattices with Beyond Nearest Connections

The propagation of elastic waves on discrete periodic Euler-Bernoulli mass-beam lattices is characterised by the competition between coupled translational and rotational degrees-of-freedom at the mass-beam junctions. We influence the dynamics of this system by coupling junctions with beyond-nearest-neighbour spatial connections, affording freedom over the locality of dispersion extrema in reciprocal space, facilitating the emergence of interesting dispersion relations. A generalised dispersion relation for an infinite monatomic mass-beam chain, with any integer order combination of non-local spatial connections, is presented. We demonstrate that competing power channels, between mass and rotational inertia, drive the position and existence of zero group velocity modes within the first Brillouin zone.

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arXiv - MATH - Mathematical Physics

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