Run-out of Sensitive Clay Debris: Significance of the Flow Behavior of Sensitive Clays

被引:0
|
作者
Thakur, V. [1 ,2 ]
Nigussie, D. [2 ]
机构
[1] Aalesund Univ Coll, Alesund, Norway
[2] Norwegian Publ Rd Adm, Oslo, Norway
来源
GEOTECHNICAL ENGINEERING | 2014年 / 45卷 / 03期
关键词
D O I
暂无
中图分类号
P5 [地质学];
学科分类号
0709 ; 081803 ;
摘要
Geohazards in the form of massive flow slides in sensitive clay deposits have been responsible for the loss of human lives and damage to nearby infrastructure. The run-out of sensitive clay debris involved in such flow slides is, among others, largely influenced by the remolded shear strength (c(ur)) of the sensitive clays. The present work studied this factor using a small-scale model referred to as the run-out test. The results demonstrated that sensitive clay debris with c(ur) < 0.3 kPa have a potential for a longer run-out, whereas a very short run-out was observed for the sensitive clay debris with c(ur) > 1 kPa. These observations were back-calculated using the three-dimensional numerical tool DAN3D.
引用
收藏
页码:22 / 31
页数:10
相关论文
共 50 条
  • [41] A well-balanced numerical scheme for debris flow run-out prediction in Xiaojia Gully considering different hydrological designs
    Han, Xudong
    Chen, Jianping
    Xu, Peihua
    Zhan, Jiewei
    LANDSLIDES, 2017, 14 (06) : 2105 - 2114
  • [42] Significance of the behavior of sensitive stigmas
    Newcombe, FC
    AMERICAN JOURNAL OF BOTANY, 1922, 9 (03) : 99 - 120
  • [43] Physically based dynamic run-out modelling for quantitative debris flow risk assessment: a case study in Tresenda, northern Italy
    Luna, Byron Quan
    Blahut, Jan
    Camera, Corrado
    van Westen, Cees
    Apuani, Tiziana
    Jetten, Victor
    Sterlacchini, Simone
    ENVIRONMENTAL EARTH SCIENCES, 2014, 72 (03) : 645 - 661
  • [44] A channelised long run-out debris slide triggered by the Noto Hanto Earthquake in 2007, Japan
    Yasuhiko Okada
    Hirotaka Ochiai
    Ushio Kurokawa
    Yasuhiro Ogawa
    Shiho Asano
    Landslides, 2008, 5 : 235 - 239
  • [45] Numerical simulation for run-out extent of debris flows using an improved cellular automaton model
    Zheng Han
    Yange Li
    Jianling Huang
    Guangqi Chen
    Linrong Xu
    Chuan Tang
    Hong Zhang
    Yonghui Shang
    Bulletin of Engineering Geology and the Environment, 2017, 76 : 961 - 974
  • [46] Investigation of granular flow run-out behavior under dilative and compressive Coriolis conditions using DEM simulation
    Zhang, Bei
    Li, Wenyang
    Huang, Yu
    CANADIAN GEOTECHNICAL JOURNAL, 2024, 61 (11) : 2434 - 2449
  • [47] Understanding the Run-Out Behavior of a Ag-Cu-Zr Braze Alloy
    Vianco, P. T.
    Walker, C. A.
    De Smet, D.
    Kilgo, A.
    McKenzie, B. M.
    Kotula, P. M.
    Grant, R. L.
    WELDING JOURNAL, 2016, 95 (02) : 36 - 42
  • [48] Investigation of granular flow run-out behavior under dilative and compressive Coriolis conditions using DEM simulation
    Zhang, Bei
    Li, Wenyang
    Huang, Yu
    CANADIAN GEOTECHNICAL JOURNAL, 2024,
  • [49] Unravelling the multiphase run-out conditions of a slide-flow mass movement
    van Asch, Th. W. J.
    Xu, Q.
    Dong, X. J.
    GEOMORPHOLOGY, 2015, 230 : 161 - 170
  • [50] Flow slides run-out prediction using a sliding-consolidation model
    Qiao, S. F.
    Clayton, C. R. I.
    LANDSLIDES, 2013, 10 (06) : 831 - 842
12345