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颗粒雪崩前塑性变形的实验研究

Experimental investigation of plastic deformations before a granular avalanche.

作者信息

Amon Axelle, Bertoni Roman, Crassous Jérôme

机构信息

Institut de Physique de Rennes, UMR UR1-CNRS 6251, Université de Rennes 1, Campus de Beaulieu, F-35042 RENNES cedex, France.

出版信息

Phys Rev E Stat Nonlin Soft Matter Phys. 2013 Jan;87(1):012204. doi: 10.1103/PhysRevE.87.012204. Epub 2013 Jan 22.

Abstract

We present an experimental study of the deformation inside a granular material that is progressively tilted. We investigate the deformation before the avalanche with a spatially resolved diffusive wave spectroscopy setup. At the beginning of the inclination process, we first observe localized and isolated events in the bulk, with a density which decreases with the depth. As the angle of inclination increases, series of microfailures occur periodically in the bulk, and finally a granular avalanche takes place. The microfailures are observed only when the tilt angles are larger than a threshold angle much smaller than the granular avalanche angle. We have characterized the density of reorganizations and the localization of microfailures. We have also explored the effect of the nature of the grains, the relative humidity conditions, and the packing fraction of the sample. We discuss those observations in the framework of the plasticity of granular matter. Microfailures may then be viewed as the result of the accumulation of numerous plastic events.

摘要

我们展示了一项对逐渐倾斜的颗粒材料内部变形的实验研究。我们使用空间分辨扩散波谱装置研究雪崩前的变形。在倾斜过程开始时,我们首先在主体中观察到局部且孤立的事件,其密度随深度降低。随着倾斜角度增加,主体中会周期性地发生一系列微破裂,最终发生颗粒雪崩。仅当倾斜角度大于远小于颗粒雪崩角度的阈值角度时才会观察到微破裂。我们已经对重组密度和微破裂的定位进行了表征。我们还探讨了颗粒性质、相对湿度条件和样品堆积分数的影响。我们在颗粒物质可塑性的框架内讨论这些观察结果。微破裂随后可被视为众多塑性事件积累的结果。

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