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振动流化颗粒物质的底部压力标度

Bottom pressure scaling of vibro-fluidized granular matter.

作者信息

Katsuragi Hiroaki

机构信息

Department of Earth and Environmental Sciences, Nagoya University, Furocho, Chikusa, Nagoya 464-8601, Japan.

出版信息

Sci Rep. 2015 Nov 25;5:17279. doi: 10.1038/srep17279.

Abstract

Vibrated granular beds show various interesting phenomena such as convection, segregation, and so on. However, its fundamental physical properties (e.g., internal pressure structure) have not yet been understood well. Thus, in this study, the bottom wall pressure in a vertically vibrated granular column is experimentally measured and used to reveal the nature of granular fluidization. The scaling method allows us to elucidate the fluidization (softening) degree of a vibrated granular column. The peak value of the bottom pressure pm is scaled as [formula in text], where pJ, d, g, ω, H, and Γ are the Janssen pressure, grain diameter, gravitational acceleration, angular frequency, height of the column, and dimensionless vibrational acceleration, respectively. This scaling implies that the pressure of vibrated granular matter is quite different from the classical pressure forms: static and dynamic pressures. This scaling represents the importance of geometric factors for discussing the behavior of vibro-fluidized granular matter. The scaling is also useful to evaluate the dissipation degree in vibro-fluidized granular matter.

摘要

振动颗粒床表现出各种有趣的现象,如对流、 segregation等。然而,其基本物理性质(如内部压力结构)尚未得到很好的理解。因此,在本研究中,对垂直振动颗粒柱中的底壁压力进行了实验测量,并用于揭示颗粒流化的本质。标度方法使我们能够阐明振动颗粒柱的流化(软化)程度。底部压力pm的峰值按[文中公式]进行标度,其中pJ、d、g、ω、H和Γ分别是扬森压力、颗粒直径、重力加速度、角频率、柱体高度和无量纲振动加速度。这种标度意味着振动颗粒物质的压力与经典压力形式(静态和动态压力)有很大不同。这种标度代表了几何因素在讨论振动流化颗粒物质行为方面的重要性。该标度对于评估振动流化颗粒物质中的耗散程度也很有用。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/c5f3/4658574/2e5194d9b54f/srep17279-f1.jpg

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