Characterizing the Effects of Friction Angles on Earth Pressures in the Flow of Granular Mass along Down-slope and Cross-slope in a Rough Incline

Journal of Hunan Institute of Science and Technology Pub Date : 2022-12-31 DOI:10.3126/jist.v27i2.48880

J. Kafle, Ramuna Pandey, Bekha Ratna Dangol

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Abstract

The tendency of the sliding mass to deform or deposit during the flow is dictated by the earth pressure coefficient (K) in the dynamics of a finite mass of cohesionless granular material discharged from rest on a rough inclined plane. When the flow’s velocities along the x and y-axes are decreasing, K=K_(y pas)^(x pas), the flow becomes convergent, and depositional behavior appears. On the other hand, if the flow velocity is increasing along x-axis but decreasing along y-axis, 〖K=K〗_(y pas)^(x act) and the flow is divergent and hence mass spreads. For K=K_(y act)^(x pas) and K=K_(y pas)^(x pas), the flow is neither convergent nor divergent, it remains constant throughout the domain. The mathematical relationship provided here and the associated 2D and 3D representation demonstrate how the internal angle (ϕ) and basal angle (δ) of frictions have a significant impact on the earth pressure coefficient in the dynamics of dry granular mass along a rough plane. The mathematical correlations for the soil mechanics are discussed along with these coefficients.

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粗坡下、横坡流动中摩擦角对土压力影响的表征

滑移体在流动过程中变形或沉积的趋势是由有限质量的无粘性颗粒材料从粗糙的斜面上的休息处排出的动力学中的土压力系数(K)决定的。当流体沿x轴和y轴速度减小，K=K_(y pas)^(x pas)时，流体趋于收敛，并出现沉积行为。另一方面，如果流速沿x轴增加而沿y轴减小，则流动发散，质量扩散。对于K=K_(y act)^(x pas)和K=K_(y pas)^(x pas)，流既不收敛也不发散，它在整个域中保持恒定。这里提供的数学关系以及相关的2D和3D表示表明，摩擦的内角(ϕ)和基角(δ)如何对沿粗糙平面的干颗粒体动力学中的土压力系数产生重大影响。同时讨论了土力学的数学关系。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Hunan Institute of Science and Technology

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