Analysis of behaviour of embankments on soft clay
Over the years, papers have been published to examine the behaviour of soft marine clay foundation subjected to loadings from embankments and widening of embankments. Methods explored have aimed to predict the soil movement and tension cracks along the embankment. In this paper, the finite elemen...
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| Format: | Final Year Project |
| Language: | English |
| Published: |
2009
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| Subjects: | |
| Online Access: | http://hdl.handle.net/10356/15912 |
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| Institution: | Nanyang Technological University |
| Language: | English |
| Summary: | Over the years, papers have been published to examine the behaviour of soft
marine clay foundation subjected to loadings from embankments and widening of
embankments. Methods explored have aimed to predict the soil movement and tension
cracks along the embankment. In this paper, the finite element program PLAXIS 8.6 has
been used to analyze the numerical models of embankments on soft clay. Two cases were
considered; a consolidation analysis was carried out to compare results to the field
measurements collected from a trial embankment constructed to failure in Muar,
Malaysia.
The second case focused on a study of widening of embankment on non-uniform
soft clay. Methods studied here include installation of deep mixed columns, sheetpile,
diaphragm walls and geotextile. In this study, the over-excavation and soil replacement
are combined with the use of sheetpile and diaphragm walls.
The deep mixed column, sheetpile and diaphragm walls ground treatment can
significantly reduce total and differential settlements and restrict the lateral movement of
the embankment but differential settlements near the edge could not be effectively
avoided. Geotextile proves to have substantial effect in preventing settlement of the crest,
transverse gradient change and also lateral displacement. As long as walls are designed
with an appropriate stiffness satisfying force or moment equilibrium, increasing wall
stiffness or interchanging between sheetpile and diaphragm wall is not needed as
reduction of soil displacements is not related to the material type and properties. |
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