Seismic behavior of geosynthetic encased columns and ordinary stone columns

This study is concerned with evaluating and comparing the behavior of geosynthetic encased stone columns (GECs) and ordinary (conventional) stone columns (OSCs) during and after seismic excitations. For this purpose, well instrumented GECs and OSCs are installed in kaolinite clay beds consolidated i...

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Published inGeotextiles and geomembranes Vol. 46; no. 1; pp. 40 - 51
Main Authors Cengiz, C., Güler, E.
Format Journal Article
LanguageEnglish
Published Essex Elsevier Ltd 01.02.2018
Elsevier BV
Subjects
Casing (process)
Clay
Confining
Consolidation
Earthquake loading
GEC
Geosynthetics
Kaolinite
Load tests
Model tests
Seismic energy
Seismic engineering
Seismic response
Shake table tests
Shaking table
Stone columns
Strain gauges
Studies
Vertical loads
Model tests
Geosynthetics
Shaking table
Earthquake loading
GEC
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Abstract This study is concerned with evaluating and comparing the behavior of geosynthetic encased stone columns (GECs) and ordinary (conventional) stone columns (OSCs) during and after seismic excitations. For this purpose, well instrumented GECs and OSCs are installed in kaolinite clay beds consolidated in a large steel tank. In order to simulate the seismic behavior of columns supporting an embankment, surcharge loads are applied and the experimental setup is subjected to large-scale shaking table tests. The strains in the encasement are measured by making use of water-proof strain gauges during the course of the experiments. The vertical load capacities of GECs and OSCs after the seismic excitation were measured by a series of stress controlled column load tests. The experimental data at hand suggests that under the action of seismic loads there is a significant strain demand on the encasement confining the GECs. An almost linear relationship between the seismic energy input expressed in terms of IA (Arias Intensity) and reinforcement strain amplitude is observed. GECs in general have exhibited a superior performance both under static and seismic loads when compared to OSCs.
AbstractList This study is concerned with evaluating and comparing the behavior of geosynthetic encased stone columns (GECs) and ordinary (conventional) stone columns (OSCs) during and after seismic excitations. For this purpose, well instrumented GECs and OSCs are installed in kaolinite clay beds consolidated in a large steel tank. In order to simulate the seismic behavior of columns supporting an embankment, surcharge loads are applied and the experimental setup is subjected to large-scale shaking table tests. The strains in the encasement are measured by making use of water-proof strain gauges during the course of the experiments. The vertical load capacities of GECs and OSCs after the seismic excitation were measured by a series of stress controlled column load tests. The experimental data at hand suggests that under the action of seismic loads there is a significant strain demand on the encasement confining the GECs. An almost linear relationship between the seismic energy input expressed in terms of IA (Arias Intensity) and reinforcement strain amplitude is observed. GECs in general have exhibited a superior performance both under static and seismic loads when compared to OSCs.
Author Güler, E.
Cengiz, C.
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Geosynthetics
Shaking table
Earthquake loading
GEC
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Snippet This study is concerned with evaluating and comparing the behavior of geosynthetic encased stone columns (GECs) and ordinary (conventional) stone columns...
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SubjectTerms Casing (process)
Clay
Confining
Consolidation
Earthquake loading
GEC
Geosynthetics
Kaolinite
Load tests
Model tests
Seismic energy
Seismic engineering
Seismic response
Shake table tests
Shaking table
Stone columns
Strain gauges
Studies
Vertical loads
Title Seismic behavior of geosynthetic encased columns and ordinary stone columns
URI https://dx.doi.org/10.1016/j.geotexmem.2017.10.001
https://www.proquest.com/docview/1990826617
Volume 46
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