Performance of floating semi rigid pulverized fly ash stone column / Nazaruddin Abdul Taha

Stone column is among the method commonly used in ground improvement work. Simplicity on installation, cheapest cost and its effectiveness on ground improvement. In this study, Pulverized Fly Ash (PFA) applied as additive material to solve the bulging problem of stone column. Sample of PFA have been...

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Main Author: Abdul Taha, Nazaruddin
Format: Thesis
Language:English
Published: 2018
Online Access:https://ir.uitm.edu.my/id/eprint/83030/1/83030.pdf
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spelling my-uitm-ir.830302023-12-05T15:56:08Z Performance of floating semi rigid pulverized fly ash stone column / Nazaruddin Abdul Taha 2018 Abdul Taha, Nazaruddin Stone column is among the method commonly used in ground improvement work. Simplicity on installation, cheapest cost and its effectiveness on ground improvement. In this study, Pulverized Fly Ash (PFA) applied as additive material to solve the bulging problem of stone column. Sample of PFA have been used taken from power plant Sultan Salahuddin Abdul Aziz Shah and considered as Class F PFA. In the beginning of study, ten configurations of mixture material (PFA, cement and sand) was proposed to identify the optimum of PFA content. The configurations grouped in two cement content, 10% and 5%. Unconfined Compression Test (UCT) and modified big shear box were conducted to study the behaviour of each configuration before tested on plate load test. From the result obtained found that sample of 70%PFA SC was the highest compressive strength. Meanwhile in direct shear test, 65% PFA was obtains the highest interface shear strength. However, results of interface shear strength for each configuration does not give significant difference. The optimum amount PFA as a filler material was in range 65% to 70% and for sand was in range 30% to 40%. Afterward, three configurations from each group 10% and 5% cement content tested on plate load test to observe the performance of sample on treated soft ground. Comparison study was applied on plate load test, six samples of PFA stone column compared with the conventional stone column and untreated soft soil. The result from plate load test shows that by applying additive materials such PFA and cement on conventional stone column have gave a better result two to four times on settlement improvement ratio and bearing capacity ratio. Numerical modelling was conducted using PLAXIS software in 2-Dimensional model. The numerical model has been verified with the experimental results. Four length and two value of area replacement ratio of each configuration were carried out to study the effect on treatment soft ground. From the generated results shows length of column and wide load area play a vital role on improving soft soil. Dimensional analysis method by using Buckingham Pi-Theorem was applied to analyse the results generated from numerical model for empirical equation prediction. six parameters involved for analysis of settlement improvement ratio and coefficient bearing capacity; undrained shear strength of PFA SC and soft soil, area replacement ratio, depth of soil, length and diameter of column. Both of equation prediction for settlement improvement ratio and coefficient bearing capacity have been compared with previous studies for further evaluation. 2018 Thesis https://ir.uitm.edu.my/id/eprint/83030/ https://ir.uitm.edu.my/id/eprint/83030/1/83030.pdf text en public phd doctoral Universiti Teknologi MARA (UiTM) Faculty of Civil Engineering
institution Universiti Teknologi MARA
collection UiTM Institutional Repository
language English
description Stone column is among the method commonly used in ground improvement work. Simplicity on installation, cheapest cost and its effectiveness on ground improvement. In this study, Pulverized Fly Ash (PFA) applied as additive material to solve the bulging problem of stone column. Sample of PFA have been used taken from power plant Sultan Salahuddin Abdul Aziz Shah and considered as Class F PFA. In the beginning of study, ten configurations of mixture material (PFA, cement and sand) was proposed to identify the optimum of PFA content. The configurations grouped in two cement content, 10% and 5%. Unconfined Compression Test (UCT) and modified big shear box were conducted to study the behaviour of each configuration before tested on plate load test. From the result obtained found that sample of 70%PFA SC was the highest compressive strength. Meanwhile in direct shear test, 65% PFA was obtains the highest interface shear strength. However, results of interface shear strength for each configuration does not give significant difference. The optimum amount PFA as a filler material was in range 65% to 70% and for sand was in range 30% to 40%. Afterward, three configurations from each group 10% and 5% cement content tested on plate load test to observe the performance of sample on treated soft ground. Comparison study was applied on plate load test, six samples of PFA stone column compared with the conventional stone column and untreated soft soil. The result from plate load test shows that by applying additive materials such PFA and cement on conventional stone column have gave a better result two to four times on settlement improvement ratio and bearing capacity ratio. Numerical modelling was conducted using PLAXIS software in 2-Dimensional model. The numerical model has been verified with the experimental results. Four length and two value of area replacement ratio of each configuration were carried out to study the effect on treatment soft ground. From the generated results shows length of column and wide load area play a vital role on improving soft soil. Dimensional analysis method by using Buckingham Pi-Theorem was applied to analyse the results generated from numerical model for empirical equation prediction. six parameters involved for analysis of settlement improvement ratio and coefficient bearing capacity; undrained shear strength of PFA SC and soft soil, area replacement ratio, depth of soil, length and diameter of column. Both of equation prediction for settlement improvement ratio and coefficient bearing capacity have been compared with previous studies for further evaluation.
format Thesis
qualification_name Doctor of Philosophy (PhD.)
qualification_level Doctorate
author Abdul Taha, Nazaruddin
spellingShingle Abdul Taha, Nazaruddin
Performance of floating semi rigid pulverized fly ash stone column / Nazaruddin Abdul Taha
author_facet Abdul Taha, Nazaruddin
author_sort Abdul Taha, Nazaruddin
title Performance of floating semi rigid pulverized fly ash stone column / Nazaruddin Abdul Taha
title_short Performance of floating semi rigid pulverized fly ash stone column / Nazaruddin Abdul Taha
title_full Performance of floating semi rigid pulverized fly ash stone column / Nazaruddin Abdul Taha
title_fullStr Performance of floating semi rigid pulverized fly ash stone column / Nazaruddin Abdul Taha
title_full_unstemmed Performance of floating semi rigid pulverized fly ash stone column / Nazaruddin Abdul Taha
title_sort performance of floating semi rigid pulverized fly ash stone column / nazaruddin abdul taha
granting_institution Universiti Teknologi MARA (UiTM)
granting_department Faculty of Civil Engineering
publishDate 2018
url https://ir.uitm.edu.my/id/eprint/83030/1/83030.pdf
_version_ 1794191962557906944