Time-dependent slope stability of temporary excavations in soft clay: A numerical study of the undrained to drained transition using combined analysis
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Författare
Typ
Examensarbete för masterexamen
Master's Thesis
Master's Thesis
Modellbyggare
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Sammanfattning
Temporary excavations in soft clay present significant stability challenges in urban
infrastructure construction, especially when slopes are steep or kept open for ex
tended periods. Current geotechnical practice assesses short-term stability using
undrained analysis, an assumption that does not account for the time-dependent
processes that occur as pore pressures dissipate and soil behaviour transitions from
undrained to drained conditions. This transitional phase is well recognized in the
ory but lacks a consistent framework for practical application, which can lead to
either overly conservative or insufficient stability analysis. This thesis investigates
the time-dependent slope stability of temporary excavations in soft clay through
combined numerical modelling. Finite Element analyses were performed in PLAXIS
2D to simulate the generation and dissipation of negative pore pressures following
excavation, which were subsequently exported to SLOPE/W where Limit Equilib
rium analyses were conducted to evaluate the factor of safety over time. Three slope
geometries with inclinations of 1:1, 1:1,5 and 1:2 were analysed. A sensitivity analy
sis was further conducted to evaluate the influence of key material parameters on the
results. The results show that negative excess pore pressures generated due to stress
relief during excavation provide a temporary but significant stabilising contribution
in short term. As consolidation progresses, these pore pressures dissipate and the
factor of safety gradually converges towards long-term drained values. Slope geome
try was found to govern both the magnitude and the rate of this transition: steeper
slopes reach drained conditions more rapidly, while flatter slopes maintain short
term stability over longer periods. The undrained assumption was found to be valid
for approximately 5 days for the 1:1 slope and 15 days for the 1:1,5 and 1:2 slopes,
after which a combined analysis should be applied. The effective friction angle was
identified as the most critical parameter for stability throughout the consolidation
period, while the Young’s modulus and permeability governs the rate of transition.
The results further show that a traditional combined analysis without accounting
for transient negative pore pressure underestimates short-term stability compared
to the method in which distribution of pore pressure was included. Overall, the
results demonstrate that the transition from undrained to drained conditions is a
gradual process, and that capturing the transient pore pressure response is essential
for accurately representing the temporary stabilising effect of excavations.
Beskrivning
Ämne/nyckelord
Temporary excavations, slope stability, combined analysis, undrained analysis, drained analysis, negative pore water pressure, time-dependent slope sta bility, PLAXIS 2D, SLOPE/W
