NON-LINEAR STATIC MODELING OF DIP-SLIP FAULTS FOR STUDYING GROUND SURFACE DEFORMATION USING APPLIED ELEMENT METHOD

Pradeep K. RAMANCHARLA; Kimiro MEGURO

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NON-LINEAR STATIC MODELING OF DIP-SLIP FAULTS FOR STUDYING GROUND SURFACE DEFORMATION USING APPLIED ELEMENT METHOD

机译：应用单元法研究地表变形的倾角滑动非线性静态建模

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Earthquakes in different geological regions show drastic variations in their effects such as, large surface upliftment/displacements of unconsolidated soil deposits. For this reason, we attempted to develop a new application of Applied Element Method (AEM) to study the ground surface deformation near fault rupture zone. First, preliminary analysis is carried out to check the applicability of the method. Results are compared with the results from analytical and experimental methods and they showed good agreement Non-linear modeling is carried out to study the effects of dip-slip faults on the ground surface. Detailed study is carried out using two cases of dip angles in both normal and reverse dip-slip fault conditions.

机译：不同地质区域的地震在其影响方面表现出极大的变化，例如，大面积地表隆起/未固结土壤沉积物的位移。因此，我们试图开发一种新的应用元素方法（AEM）来研究断层破裂带附近的地表变形。首先，进行初步分析以检查该方法的适用性。将结果与分析和实验方法的结果进行了比较，它们显示出良好的一致性。进行了非线性建模，以研究倾滑断层对地面的影响。在正常和反向倾滑故障条件下均使用倾角的两种情况进行了详细研究。

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来源
《Structural engineering earthquake engineering》 |2002年第2期|p.169s-178s|共10页
作者
Pradeep K. RAMANCHARLA; Kimiro MEGURO;
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作者单位

Institute of Industrial Science, The University of Tokyo;

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原文格式 PDF
正文语种 eng
中图分类建筑施工;
关键词
applied element method; AEM; active fault; dip-slip fault; surface rupture; Ji-Ji earthquake; kocaeli earthquake;

机译：应用单元法;AEM;活动断层;倾滑断层;表面破裂;吉吉地震;可卡里地震;

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专利

1. 3D Numerical modelling of faults for study of ground surface deformation using applied element method. [J] . Ramancharla P K, Meguro K Current Science: A Fortnightly Journal of Research . 2006,第8期

机译：3D断层的数值模型，用于使用应用单元法研究地表变形。
2. 3D Numerical modelling of faults for study of ground surface deformation using applied element method. [J] . Ramancharla P K, Meguro K Current Science: A Fortnightly Journal of Research . 2006,第8期

机译：3D断层的数值模型，用于使用应用单元法研究地表变形。
3. 3D Numerical modelling of faults for study of ground surface deformation using applied element method [J] . Meguro Kimiro, Ramancharla Pradeep K. Current science . 2006,第08期

机译：应用元法对断层进行三维数值模拟研究地表变形
4. DYNAMIC MODELING OF DIP-SLIP FAULTS FOR STUDYING GROUND SURFACE DEFORMATION USING APPLIED ELEMENT METHOD [C] . World conference on earthquake engineering . 2004

机译：应用元件法研究地面变形的浸析故障动态建模
5. Dynamic Models of Earthquake Rupture on Fault Stepovers and Dip-Slip Faults Using Various Friction Formulations. [D] . Ryan, Kenny. 2012

机译：使用各种摩擦公式在断层跨度和倾滑断层上地震破裂的动力学模型。
6. Patient-Specific Non-Linear Finite Element Modelling for Predicting Soft Organ Deformation in Real-Time; Application to Non-Rigid Neuroimage Registration [O] . Adam Wittek, Grand Joldes, Mathieu Couton, -1

机译：患者特异性非线性有限元建模用于实时预测软器官变形;应用于非刚性神经视线登记
7. Analysis of Ground Surface Deformation Caused by Strike-Slip Fault Using Spectral Stochastic Finite Element Method [O] . Hidenori NAKAGAWA, Muneo HORI 2002

机译：采用光谱随机有限元法采用防滑故障引起的地表变形分析

NON-LINEAR STATIC MODELING OF DIP-SLIP FAULTS FOR STUDYING GROUND SURFACE DEFORMATION USING APPLIED ELEMENT METHOD

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