Numerical Simulation of a Creeping Landslide Induced by a Snow Melt Water

Q1 Engineering

Bell Labs Technical Journal Pub Date : 2019-07-01 DOI:10.3126/tj.v1i1.27594

D. Bhat, A. Wakai

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引用次数: 3

Abstract

In this study, a finite element based numerical method has been considered to evaluate the creeping behavior of a landslide induced by snow melt water. A two-dimensional elasto-viscoplastic constitutive model was used to simulate the creeping behavior owing to groundwater level fluctuations of the Tomuro landslide of Gunma, Japan as a case study. Two new control constitutive parameters were incorporated in the numerical model for the first time to better understand the creeping behavior of a landslide induced by snow melt water. Such control constitutive parameters are estimated based on the relation between the total factor of safety, calculated by the Janbu's Simplified Method (i.e., Limit Equilibrium Method), and the field monitoring displacement rate of the Tomuro landslide of Gunma prefecture, Japan. The snowfall precipitation was also considered during the calculation of total factor of safety. Others required material parameters for landslide simulation were obtained from the field investigation and laboratory tests of the collected blocked samples. The simulation results of deformation pattern and shear strain pattern were presented and discussed to understand the creeping behaviour of the Tomuro landslide. Moreover, the predicted and measured time histories of horizontal displacement of the Tomuro landslide were compared for the validity of the proposed numerical model, and found in good agreements with each other. Therefore, it is believed that the proposed numerical method will be applicable to understand the creeping behavior of a landslide induced by snow melt water in the future and at the same time, long-term monitoring and management of such landslide will be much easier.

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融雪水诱发蠕变滑坡的数值模拟

本文采用基于有限元的数值方法对融雪水诱发滑坡的蠕变行为进行了数值模拟。以日本群马县Tomuro滑坡为例，采用二维弹粘塑性本构模型模拟了该滑坡在地下水位波动作用下的蠕变行为。为了更好地理解融雪水诱发滑坡的蠕变行为，首次在数值模型中引入了两个新的控制本构参数。该控制本构参数是根据Janbu简化法(即极限平衡法)计算的总安全系数与日本群马县Tomuro滑坡的现场监测位移率之间的关系来估算的。在计算总安全系数时，还考虑了降雪量。其他滑坡模拟所需的材料参数则是通过现场调查和收集的拦阻样块的室内试验获得的。给出了变形模式和剪切应变模式的模拟结果，并对其进行了讨论，以便更好地理解托穆罗滑坡的蠕变特性。此外，将所建数值模型的水平位移预测时程与实测时程进行对比，验证了模型的有效性，两者吻合较好。因此，本文所提出的数值方法将适用于今后了解融雪水诱发滑坡的蠕变行为，同时也将大大方便对此类滑坡的长期监测和管理。

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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来源期刊

Bell Labs Technical Journal 工程技术-电信学

自引率

0.00%

发文量

审稿时长

6-12 weeks

期刊介绍： The Bell Labs Technical Journal (BLTJ) highlights key research and development activities across Alcatel-Lucent — within Bell Labs, within the company’s CTO organizations, and in cross-functional projects and initiatives. It publishes papers and letters by Alcatel-Lucent researchers, scientists, and engineers and co-authors affiliated with universities, government and corporate research labs, and customer companies. Its aim is to promote progress in communications fields worldwide; Bell Labs innovations enable Alcatel-Lucent to deliver leading products, solutions, and services that meet customers’ mission critical needs.