Oger Luc, Tannoury Claude El, Delannay Renaud, Le Gonidec Yves, Ippolito Irene, Roht Yanina Lucrecia, Gómez-Arriaran Iñaki
Univ. Rennes, CNRS, IPR (Institut de Physique de Rennes)-UMR 6251, F-35000 Rennes, France.
Univ. Rennes, CNRS, Géosciences Rennes-UMR 6118, F-35000 Rennes, France.
Phys Rev E. 2020 Feb;101(2-1):022902. doi: 10.1103/PhysRevE.101.022902.
Laboratory study of slope stability of granular media remains a challenge for modeling, understanding, and predicting natural hazards, such as avalanches and landslides, precursory signs of which are controlled by numerous physical parameters. The present work focuses on the impact of the humidity, in the range of 40-90%, on the stability of monodisperse dense packings of spherical beads. The beads are in a transparent box that is slowly and continuously tilted and allows simultaneous top and lateral optical measurements of global displacements of grains at the surface, defined as precursors. Humidity increases the cohesion between the grains. By performing successive avalanches that destabilize deeper granular layers, we assess the role of the exposure time to the high humidity rates in the diffusion process to reach the hygroscopic equilibrium inside the packing. We highlight an increase of the stability and first precursor angles, associated to a constant angle increment between two consecutive precursors, with a dependency with both the diameter (0.2,0.5, and 0.75 mm) and the material (glass and polystyrene) of the grains.
颗粒介质边坡稳定性的实验室研究对于模拟、理解和预测自然灾害(如雪崩和山体滑坡)仍然是一项挑战,这些灾害的前兆受众多物理参数控制。目前的工作重点是研究湿度在40%至90%范围内对单分散球形珠密实堆积稳定性的影响。珠子放置在一个透明盒子中,盒子缓慢且持续倾斜,可同时对表面颗粒的整体位移进行顶部和侧面光学测量,这些位移被定义为前兆。湿度会增加颗粒之间的内聚力。通过进行连续的雪崩来使更深的颗粒层失稳,我们评估了在扩散过程中暴露于高湿度率的时间在达到堆积内部吸湿平衡中的作用。我们强调稳定性和首个前兆角度会增加,且两个连续前兆之间存在恒定的角度增量,这与颗粒的直径(0.2毫米、0.5毫米和0.75毫米)以及材料(玻璃和聚苯乙烯)有关。
