Wave propagation in force chains

Powders and Grains 2001 Pub Date : 2020-12-17 DOI:10.1201/9781003077497-31
W. Saarloos, E. Somfai, J. Roux, Faculteit der Wiskunde en Natuurwetenschappen
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Abstract

We present numerical simulations of acoustic wave propagation in disordered granular media. Small amplitude oscillations of compressed static configurations of frictionless spherical grains are analyzed. Force chains, while important for the static properties of the granular assemblies, do not play a dominant role in transmitting acoustic waves according to our observations. Reasons include that the stiffness network is less widely distributed than the force network, and the nearby grains are coupled relatively strongly to grains in the force chain. The transmitted acoustic signal can be decomposed to an initial cycle and a more noisy tail, similarly to related experiments.
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力链中的波传播
本文对声波在无序颗粒介质中的传播进行了数值模拟。分析了无摩擦球形晶粒压缩静态构型的小振幅振荡。力链虽然对颗粒组合的静态特性很重要,但根据我们的观察,在声波传输中并不起主导作用。原因包括刚度网络的分布没有力网络广泛,附近的晶粒与力链中的晶粒耦合比较强。传输的声信号可以分解为一个初始周期和一个噪声更大的尾部,类似于相关实验。
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Powders and Grains 2001
Powders and Grains 2001
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