Abstract
The Nerang Broadbeach Roadway (NBR) embankment in Australia is founded on soft clay deposits. The embankment sections were preloaded and surcharged-preloaded to limit the post-construction deformation and to avoid stability failure. In this paper, we discuss the NBR embankment’s geology, geotechnical properties of the subsurface, and long-term field monitoring data from settlement plates and piezometers. We demonstrate a comparison of cone penetration test (CPT) and piezo cone dissipation test (CPT-u) interpreted geotechnical properties and the NBR embankment’s foundation stratification with laboratory and field measured data. We also developed two elasto-viscoplastic (EVP) models for long-term performance prediction of the NBR embankment. In this regard, we considered both the associated and the non-associated flow rule in the EVP model formulation to assess the flow rule effect of soft clay. We also compared EVP model predictions with the Modified Cam Clay (MCC) model to evaluate the effect of viscous behavior of natural Estuarine clay. Both EVP models require six parameters, and five of them are similar to the MCC model. We used the secondary compression index of clay in the EVP model formulations to include the viscous response of clay. We obtained numerical models’ parameters from laboratory tests and interpretation of CPT and CPTu data. We observed that the EVP models predicted well compared with the MCC model because of the inclusion of soft clay’s viscosity in the EVP models. Moreover, the flow rule effect in the embankment’s performance predictions was noticeable. The non-associated flow rule EVP model predicted the field monitoring settlement and pore pressure better compared to the MCC model and the associated flow EVP model.
Highlights
Soft clays are considered problematic soil because of their low bearing capacity, low hydraulic properties, high compressibility, and time-dependent viscoplastic nature [1,2]
We used cone penetration test (CPT), CPT-u, laboratory, and field monitoring data to stratify the Nerang Broadbeach Roadway (NBR) embankment foundation, which we used for the coupled finite element (FE) simulations
We found from the settlement plates data that the surcharged-preloading was effective for the NBR embankment foundation for the identical height of preloading only
Summary
Soft clays are considered problematic soil because of their low bearing capacity, low hydraulic properties, high compressibility, and time-dependent viscoplastic nature [1,2]. The Nerang Broadbeach Roadway (NBR) embankment was founded on the soft Estuarine clay deposit varying from 5.0 m to 21.0 m (see Islam et al [6]) This type of embankment foundation is feeble, and rapid construction is challenging without ground improvement. When any geotechnical structures are founded on problematic soft clay, as with the NBR embankment, it is essential to predict their long-term performance in order to minimize maintenance cost. In this regard, to address similar challenges, there are numerous numerical models, ranging from elastic models to elasto-viscoplastic models [8,9,10]. The bedrock is the lowest level, which consists of the greywacke and the argillite bedrock of the Neranleigh–Fernvale beds
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