ورود
مقالات فارسیISIکنفرانسهاژورنالها

Numerical and Physical Modeling of Soft Soil Slope Stabilized with Stone Columns

Publish place: Journal of Rehabilitation in Civil Engineering، Vol: 8، Issue: 4
Publish Year: 1399
نوع سند: مقاله ژورنالی
زبان: English
View: 43

This Paper With 19 Page And PDF Format Ready To Download

  • Certificate
  • من نویسنده این مقاله هستم

استخراج به نرم افزارهای پژوهشی:

لینک ثابت به این Paper:
https://civilica.com/doc/2070538

شناسه ملی سند علمی:

JR_CIVLJ-8-4_009

تاریخ نمایه سازی: 23 شهریور 1403

Abstract:

There can be many reasons for engineers to place the footings near a slope such as leakage of suitable sites or architectural considerations. One of the approaches to increase the amount of bearing capacity, especially in soft soils, is adding stone columns to the soil. In this research, the behavior of a strip footing placed near a stone column reinforced clayey slope was investigated. For this purpose, some small-scale model tests were performed on a clayey slope reinforced with stone columns. The effects of the length of the stone column and the length of encasement on the footing were studied. Additionally, vertical encased stone columns in a group arrangement were investigated. Some numerical analyses were also performed using the Midas GTS NX finite element software, and the factor of safety was studied. Results show that the optimum length was equal to four times the diameter of stone columns. It was observed that by increasing the length of encasement, the bearing capacity of strip footing was also increased. The safety factor of slope showed an increase when stone columns were added to the slope, but the maximum influence on the factor of safety appeared when the stone column was in the upper middle of the slope.

Keywords:

Bearing capacity , Stone column , Strip footing , Safety factor , slope

Authors

Erfan Naderi

Ph.D. candidate, Department of Civil Engineering, University of Hormozgan, Bandar Abbas

Adel Asakereh

Assistant Professor, Department of Civil Engineering, University of Hormozgan, Bandar Abbas, Iran

Masoud Dehghani

Assistant Professor, Department of Civil Engineering, University of Hormozgan, Bandar Abbas, Iran

مراجع و منابع این Paper:

لیست زیر مراجع و منابع استفاده شده در این Paper را نمایش می دهد. این مراجع به صورت کاملا ماشینی و بر اساس هوش مصنوعی استخراج شده اند و لذا ممکن است دارای اشکالاتی باشند که به مرور زمان دقت استخراج این محتوا افزایش می یابد. مراجعی که مقالات مربوط به آنها در سیویلیکا نمایه شده و پیدا شده اند، به خود Paper لینک شده اند :
  • A. Ambily, S.R. Gandhi, (۲۰۰۷). Behavior of stone columns based ...
  • J. Shahu, Y. Reddy, (۲۰۱۱). Clayey soil reinforced with stone ...
  • G. Kumar, M. Samanta, (۲۰۲۰). Experimental evaluation of stress concentration ...
  • J. Nazariafshar, N. Mehrannia, F. Kalantary, N. Ganjian, (۲۰۱۹). Bearing ...
  • J.M.O. Hughes, N.J. Withers, (۱۹۷۴). Reinforcing of soft cohesive soils ...
  • M. Ghazavi, J.N. Afshar, (۲۰۱۳). Bearing capacity of geosynthetic encased ...
  • J. Gniel, A. Bouazza, (۲۰۰۹). Improvement of soft soils using ...
  • C. Cengiz, E. Güler, (۲۰۱۸). Seismic behavior of geosynthetic encased ...
  • M. Miranda, A. Da Costa, J. Castro, C. Sagaseta, (۲۰۱۷). ...
  • S. Nayak, M.P. Vibhoosha, A. Bhasi, (۲۰۱۹). Effect of Column ...
  • C. Yoo, Q. Abbas, (۲۰۲۰). Laboratory investigation of the behavior ...
  • Y.-S. Hong, C.-S. Wu, C.-M. Kou, C.-H. Chang, (۲۰۱۷). A ...
  • A.J. Choobbasti, H. Pichka, (۲۰۱۴). Improvement of soft clay using ...
  • J. Castro, (۲۰۱۷). Groups of encased stone columns: Influence of ...
  • A. Ehsaniyamchi, M. Ghazavi, (۲۰۱۹). Short-term and long-term behavior of ...
  • M.A. Nav, R. Rahnavard, A. Noorzad, R. Napolitano, (۲۰۲۰) Numerical ...
  • M.S. Keskin, M. Laman, (۲۰۱۴). Experimental and numerical studies of ...
  • M.A. El Sawwaf, (۲۰۰۷). Behavior of strip footing on geogrid-reinforced ...
  • A. Sommers, B. Viswanadham, (۲۰۰۹). Centrifuge model tests on the ...
  • S. Naeini, B.K. Rabe, E. Mahmoodi, (۲۰۱۲). Bearing capacity and ...
  • N. Hataf, A. Fatolahzadeh, (۲۰۱۹). An experimental and numerical study ...
  • X. Li, S. He, Y. Luo, Y. Wu, (۲۰۱۱). Numerical ...
  • M. Ashour, H. Ardalan, (۲۰۱۲). Analysis of pile stabilized slopes ...
  • M. Esmaeili, M. Gharouni Nik, F. Khayyer, (۲۰۱۳). Static and ...
  • Z. Zhang, J. Han, G. Ye, (۲۰۱۴). Numerical investigation on ...
  • J.-F. Chen, L.-Y. Li, J.-F. Xue, S.-Z. Feng, (۲۰۱۵). Failure ...
  • G. Zheng, X. Yu, H. Zhou, S. Wang, J. Zhao, ...
  • M. Ghazavi, A. Shahmandi, (۲۰۰۸). Analytical Static Stability Analysis of ...
  • M. Vekli, M. Aytekin, S.B. Ikizler, Ü. Çalik, (۲۰۱۲). Experimental ...
  • M. Hajiazizi, E. Nemati, M. Nasiri, M. Bavali, M. Sharifipur, ...
  • E. Raee, N. Hataf, K. Barkhordari, A. Ghahramani, (۲۰۱۸). The ...
  • E. Naderi, A. Asakereh, M. Dehghani, (۲۰۱۸). Bearing Capacity of ...
  • M. Nasiri, M. Hajiazizi, (۲۰۱۹). An experimental and numerical investigation ...
  • A.S.f.T.a. Materials, ASTM, (۱۹۸۴). American Society for Testing ...
  • S.K. Dash, M.C. Bora, (۲۰۱۳). Influence of geosynthetic encasement on ...
  • D.M. Wood, W. Hu, D.F.T. Nash, (۲۰۰۰). Group effects in ...
  • R. Barksdale, R. Bachus, (۱۹۸۳). Design and Construction of Stone ...
  • M. Hasan, N. Samadhiya, (۲۰۱۷). Performance of geosynthetic-reinforced granular piles ...
  • MIDAS/GTS NX. manual, (۲۰۱۶). Modeling, Integrated Design & Analysis Software. ...
  • USACE, (۱۹۹۰). Settlement Analysis, Engineer Manual EM ۱۱۱۰‐۱‐۱۹۰۴ ...
  • P. Debnath, A.K. Dey, (۲۰۱۷). Bearing capacity of geogrid reinforced ...
  • S.-W. Sun, W. Wang, F. Zhao, (۲۰۱۴). Three-dimensional stability analysis ...
  • P. Paresh, S. Vasanwala, (۲۰۱۲). Numerical analysis of slope reinforced ...
  • W. Wei, Y. Cheng, (۲۰۰۹). Strength reduction analysis for slope ...
    • نمایش کامل مراجع