Properties of binder-bentonite-sand for construction of seepage cut-off walls
Sandy soils have engineering limitations such as high groundwater flow due to its porous continuum. As a result, seepage cut-off walls are required to be built to minimise the consequential adverse effects. The cut-off walls are often made with a mixture of binder, bentonite and in-situ sandy soil....
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2023
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sg-ntu-dr.10356-1678982023-06-09T15:34:24Z Properties of binder-bentonite-sand for construction of seepage cut-off walls Tan, Yi Yin Yi Yaolin School of Civil and Environmental Engineering yiyaolin@ntu.edu.sg Engineering::Civil engineering Sandy soils have engineering limitations such as high groundwater flow due to its porous continuum. As a result, seepage cut-off walls are required to be built to minimise the consequential adverse effects. The cut-off walls are often made with a mixture of binder, bentonite and in-situ sandy soil. Ordinary Portland cement (OPC) has been widely adopted for construction of seepage cut-off walls. However, the growing environmental awareness has urged to lower the carbon footprint caused by the use of OPC. Therefore, this study utilizes an alternative low-carbon binder of magnesia (MgO)-activated ground granulated blast-furnace slag (GGBS) to stabilise the soil mixtures in cut-off walls. This study is a part of a dual project and it focuses on inland application, whereas another study by Chao (2023) focuses on marine application. The effectiveness of MgO-GGBS was compared with other binder types such as OPC and quicklime (CaO)-activated GGBS. Different bentonite types, which included sodium, calcium and seawater-resistant bentonites, were used in this study. The properties of sand-bentonite-binder mixture, including bulk density, water content, unconfined compressive strength (UCS) and permeability, were evaluated. The results indicated that MgO-GGBS was a promising binder that performed better than OPC and CaO-GGBS. In particular, binder with MgO:GGBS ratio of 1:9 in combination with calcium bentonite produced the best performing sand-bentonite-binder mixture in terms of UCS, with permeability below the specified limit. This was due to the formation of mesh-like calcium silicate hydrate (C-S-H) during the hydration of MgO-GGBS, shown in scanning electron microscope (SEM), which bonded soil particles to form a well-compacted microstructure. Bachelor of Engineering (Civil) 2023-06-05T05:22:08Z 2023-06-05T05:22:08Z 2023 Final Year Project (FYP) Tan, Y. Y. (2023). Properties of binder-bentonite-sand for construction of seepage cut-off walls. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/167898 https://hdl.handle.net/10356/167898 en application/pdf Nanyang Technological University |
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Engineering::Civil engineering Tan, Yi Yin Properties of binder-bentonite-sand for construction of seepage cut-off walls |
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Sandy soils have engineering limitations such as high groundwater flow due to its porous continuum. As a result, seepage cut-off walls are required to be built to minimise the consequential adverse effects. The cut-off walls are often made with a mixture of binder, bentonite and in-situ sandy soil. Ordinary Portland cement (OPC) has been widely adopted for construction of seepage cut-off walls. However, the growing environmental awareness has urged to lower the carbon footprint caused by the use of OPC. Therefore, this study utilizes an alternative low-carbon binder of magnesia (MgO)-activated ground granulated blast-furnace slag (GGBS) to stabilise the soil mixtures in cut-off walls. This study is a part of a dual project and it focuses on inland application, whereas another study by Chao (2023) focuses on marine application. The effectiveness of MgO-GGBS was compared with other binder types such as OPC and quicklime (CaO)-activated GGBS. Different bentonite types, which included sodium, calcium and seawater-resistant bentonites, were used in this study. The properties of sand-bentonite-binder mixture, including bulk density, water content, unconfined compressive strength (UCS) and permeability, were evaluated. The results indicated that MgO-GGBS was a promising binder that performed better than OPC and CaO-GGBS. In particular, binder with MgO:GGBS ratio of 1:9 in combination with calcium bentonite produced the best performing sand-bentonite-binder mixture in terms of UCS, with permeability below the specified limit. This was due to the formation of mesh-like calcium silicate hydrate (C-S-H) during the hydration of MgO-GGBS, shown in scanning electron microscope (SEM), which bonded soil particles to form a well-compacted microstructure. |
| author2 |
Yi Yaolin |
| author_facet |
Yi Yaolin Tan, Yi Yin |
| format |
Final Year Project |
| author |
Tan, Yi Yin |
| author_sort |
Tan, Yi Yin |
| title |
Properties of binder-bentonite-sand for construction of seepage cut-off walls |
| title_short |
Properties of binder-bentonite-sand for construction of seepage cut-off walls |
| title_full |
Properties of binder-bentonite-sand for construction of seepage cut-off walls |
| title_fullStr |
Properties of binder-bentonite-sand for construction of seepage cut-off walls |
| title_full_unstemmed |
Properties of binder-bentonite-sand for construction of seepage cut-off walls |
| title_sort |
properties of binder-bentonite-sand for construction of seepage cut-off walls |
| publisher |
Nanyang Technological University |
| publishDate |
2023 |
| url |
https://hdl.handle.net/10356/167898 |
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1772826613652652032 |