Stiffness Modulus Comparison in Trackbed Foundation Soil
Daesung Kim, Hojin Cho, Jaebeom Park, and Yujin Lim
International Journal of Railway, vol. 8, no. 2, pp.50-54, 2015
Abstract : The primary function of the trackbed in a conventional railway track system is to decrease the stresses in the subgrade to
be in an acceptable level. A properly designed trackbed layer performs this task adequately. Many design procedures
have used assumed and/or are based on critical stiffness values of the layers obtained mostly in the field to calculate an
appropriate thickness of the sublayers of the trackbed foundation. However, those stiffness values do not consider strain
levels clearly and precisely in the layers. This study proposes a method of computation of stiffness that can handle with
strain level in the layers of the trackbed foundation in order to provide properly selected design values of the stiffness of
the layers. The shear modulus values are dependent on shear strain level so that the strain levels generated in
the subgrade in the trackbed under wheel loading and below plate of Repeated Plate Bearing Test (RPBT)
are investigated by finite element analysis program ABAQUS and PLAXIS programs. The strain levels generated in
the subgrade from RPBT are compared to those values from RC (Resonant Column) test after some consideration of
strain levels and stress consideration. For comparison of shear modulus G obtained from RC test and stiffness moduli Ev2
obtained from RPBT in the field, many numbers of mid-size RC tests in laboratory and RPBT in field were performed
extensively. It was found in this study that there is a big difference in stiffness modulus when the converted Ev2 values
were compared to those values of RC test. It is verified in this study that it is necessary to use precise and increased loading
steps to construct nonlinear curves from RPBT in order to get correct Ev2 values in proper strain levels.
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