Soil database for development of soil properties envelope
Residual soils are commonly found in unsaturated condition, and they are associated with high variability. It is necessary to develop a soil database for simplicity of geotechnical analyses and design with respect to cost optimization. This study focused on developing a framework for creating a soil...
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sg-ntu-dr.10356-1636512022-12-13T05:50:07Z Soil database for development of soil properties envelope Satyanaga, Alfrendo Rangarajan, Saranya Rahardjo, Harianto Li, Yangyang Kim, Yongmin School of Civil and Environmental Engineering Engineering::Civil engineering Residual Soil Soil Properties Residual soils are commonly found in unsaturated condition, and they are associated with high variability. It is necessary to develop a soil database for simplicity of geotechnical analyses and design with respect to cost optimization. This study focused on developing a framework for creating a soil database based on boreholes from different projects, locations and time in Singapore. The soil database was developed utilizing user-friendly and low-cost platforms, i.e. Microsoft Access and Visual Basic Application (VBA). The developed soil database was used to generate saturated and unsaturated soil properties envelopes in Singapore. The developed soil properties envelopes were evaluated by the results from experimental works in this study. The five-parameter logistic curve was chosen as the best-fitting function to develop envelopes with reference to the boxplot. The analyses indicated that soils located at deeper depths have lesser percentage of fine particles which results in a higher saturated permeability, effective friction angle and unsaturated ϕb angle. The results from statistical analyses indicate certain upper limit, typical and lower limit for air-entry value (AEV) for residual soils from Jurong Formation, Bukit Timah Granite and Old Alluvium. Residual soils from each formation located at the ground surface produced the highest AEV while soils at deeper depths exhibit a lower AEV. The First Author appreciates the financial support from the Nazarbayev University, Collaborative Research Project (CRP) Grant No. 11022021CRP1512. 2022-12-13T05:50:07Z 2022-12-13T05:50:07Z 2022 Journal Article Satyanaga, A., Rangarajan, S., Rahardjo, H., Li, Y. & Kim, Y. (2022). Soil database for development of soil properties envelope. Engineering Geology, 304, 106698-. https://dx.doi.org/10.1016/j.enggeo.2022.106698 0013-7952 https://hdl.handle.net/10356/163651 10.1016/j.enggeo.2022.106698 2-s2.0-85129557920 304 106698 en Engineering Geology © 2022 Elsevier B.V. All rights reserved. |
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Engineering::Civil engineering Residual Soil Soil Properties |
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Engineering::Civil engineering Residual Soil Soil Properties Satyanaga, Alfrendo Rangarajan, Saranya Rahardjo, Harianto Li, Yangyang Kim, Yongmin Soil database for development of soil properties envelope |
| description |
Residual soils are commonly found in unsaturated condition, and they are associated with high variability. It is necessary to develop a soil database for simplicity of geotechnical analyses and design with respect to cost optimization. This study focused on developing a framework for creating a soil database based on boreholes from different projects, locations and time in Singapore. The soil database was developed utilizing user-friendly and low-cost platforms, i.e. Microsoft Access and Visual Basic Application (VBA). The developed soil database was used to generate saturated and unsaturated soil properties envelopes in Singapore. The developed soil properties envelopes were evaluated by the results from experimental works in this study. The five-parameter logistic curve was chosen as the best-fitting function to develop envelopes with reference to the boxplot. The analyses indicated that soils located at deeper depths have lesser percentage of fine particles which results in a higher saturated permeability, effective friction angle and unsaturated ϕb angle. The results from statistical analyses indicate certain upper limit, typical and lower limit for air-entry value (AEV) for residual soils from Jurong Formation, Bukit Timah Granite and Old Alluvium. Residual soils from each formation located at the ground surface produced the highest AEV while soils at deeper depths exhibit a lower AEV. |
| author2 |
School of Civil and Environmental Engineering |
| author_facet |
School of Civil and Environmental Engineering Satyanaga, Alfrendo Rangarajan, Saranya Rahardjo, Harianto Li, Yangyang Kim, Yongmin |
| format |
Article |
| author |
Satyanaga, Alfrendo Rangarajan, Saranya Rahardjo, Harianto Li, Yangyang Kim, Yongmin |
| author_sort |
Satyanaga, Alfrendo |
| title |
Soil database for development of soil properties envelope |
| title_short |
Soil database for development of soil properties envelope |
| title_full |
Soil database for development of soil properties envelope |
| title_fullStr |
Soil database for development of soil properties envelope |
| title_full_unstemmed |
Soil database for development of soil properties envelope |
| title_sort |
soil database for development of soil properties envelope |
| publishDate |
2022 |
| url |
https://hdl.handle.net/10356/163651 |
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1753801139802865664 |