表層崩壊の無次元発生支配パラメータ
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概要
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We need to predict the timing, location, and volume of landslides for the better disaster mitigation and the better estimation of the bed deformation of mountainous rivers. However it is not so easy because a number of soil parameters, e.g., the angle of internal friction, cohesion, and porosity, are needed to predict landslide occurrence, and they have significant spatial variability. Therefore, it is important to make clear how the parameters contribute to overall slope stability and relate to each other. Few studies evaluated the contribution of each parameter to slope stability based on the slope stability analyses. However, they could not give us how landslides would be subject to the set of the parameters. In this study, we tried to understand it. We, therefore, normalized the safety factor equation for infinite slope, and introduced laminar soil layer structure into the equation. Then, we obtained new non-dimensional representation for the effects of underground water table and cohesion of soil. They are evaluated relatively with comparison to the stability of dry non-ohesive soil. And we also obtained that the effect of cohesion of soil should be evaluated from the comparison with the maximum effect of underground water table to the stability. From these explanations, we deduced the thickness of landslide, the immunity to the occurrence of landslide and the periodicity of landslide occurrence.
- Japan Society of Erosion Control Engineeringの論文
Japan Society of Erosion Control Engineering | 論文
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