Quasi-static Loading Effects on a Mar shalling Yard Calibration of a Creep-SCLAY1S Model Using Satellite and In Situ Measurements
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Publicerad
Författare
Typ
Examensarbete för masterexamen
Master's Thesis
Master's Thesis
Modellbyggare
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Sammanfattning
Marshalling yards on soft clay deposits are subject to long-term settlements driven
by consolidation and creep, posing challenges for track geometry maintenance and
operational reliability. This thesis investigates time-dependent settlement behaviour
at Sävenäs marshalling yard in Gothenburg, Sweden, through numerical modelling
using the Creep-SCLAY1S constitutive model in PLAXIS 2D. The model accounts
for anisotropy, bonding and rate-dependent deformation, making it well suited for
the soft Gothenburg clay conditions at the site. Model parameters were calibrated
using site-specific oedometer and triaxial test data, supplemented by theoretical
relationships and literature values for similar Scandinavian clay deposits. The cal
ibrated model was validated against two independent field datasets: bellow hose
measurements tracking subsurface deformation at multiple depths, and surface set
tlement rates derived from Sentinel-1 InSAR observations. Good agreement was
achieved at most monitoring locations, with simulated long-term settlement rates
of approximately 4–5 mm/year consistent with satellite observations. The variabil
ity observed in InSAR data within the depot area is interpreted as reflecting cyclic
vertical movements from operational loading rather than measurement noise. Oper
ational loading was represented using a quasi-static approach, where train loads were
activated and deactivated over time according to track occupancy patterns. The re
sults show that excess pore pressure and settlements are most pronounced in the
upper soil layers, with the influence of loading diminishing clearly with depth. Par
tial pore pressure dissipation between load cycles prevented progressive settlement
acceleration, and the response approached a stable long-term condition consistent
with partially drained behaviour. For preliminary assessments, a simplified con
stant load of approximately 50% of the full load was found to produce comparable
results to the quasi-static scheme if only settlements in the clay is of interest. The
study demonstrates that advanced constitutive modelling combined with remote
sensing validation provides a reliable framework for assessing long-term settlement
behaviour in railway infrastructure on soft clay.
Beskrivning
Ämne/nyckelord
Soft clay, long-term settlements, Creep-SCLAY1S, quasi-static loading, bellow hose, marshalling yard, InSAR
