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
Abstract
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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