呈现稳定表面流动的颗粒堆中的蠕变运动。

Creep motion in a granular pile exhibiting steady surface flow.

作者信息

Komatsu T S, Inagaki S, Nakagawa N, Nasuno S

机构信息

Department of Environmental Science, Japan Atomic Energy Research Institute, Tokai, Naka, Ibaraki 319-1195, Japan.

出版信息

Phys Rev Lett. 2001 Feb 26;86(9):1757-60. doi: 10.1103/PhysRevLett.86.1757.

DOI:10.1103/PhysRevLett.86.1757

PMID:11290241

Abstract

We investigate experimentally granular piles exhibiting steady surface flow. Below the surface flow, it has been believed that a "frozen" bulk region exists, but our results show no such frozen bulk. We report here that even the particles in layers deep in the bulk exhibit very slow flow and that such motion can be detected at an arbitrary depth. The mean velocity of the creep motion decays exponentially with depth, and the characteristic decay length is approximately equal to the particle size and is independent of the flow rate. It is expected that the creep motion we have seen is observable in all sheared granular systems.

摘要

我们通过实验研究了呈现稳定表面流的颗粒堆。在表面流之下，人们一直认为存在一个“冻结”的主体区域，但我们的结果表明不存在这样的冻结主体。我们在此报告，即使在主体深处的层中的颗粒也表现出非常缓慢的流动，并且这种运动可以在任意深度被检测到。蠕变运动的平均速度随深度呈指数衰减，特征衰减长度大约等于颗粒尺寸且与流速无关。预计我们所观察到的蠕变运动在所有剪切颗粒系统中都是可观测的。

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呈现稳定表面流动的颗粒堆中的蠕变运动。

Creep motion in a granular pile exhibiting steady surface flow.

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