Abstract
Two suggestions are provided for expanding the scope of LEAP project for the next stage. The first suggestion is to perform undrained cyclic shear tests with addditional static deviator stress to represent more realistic stress conditions in soil-structure systems during earthquakes. The other suggestion is to perform centrifuge model tests with non-homogeneous soil layer such as mildly sloping ground of liquefiable sand overlain by a less permeable capping crust layer, leading to a unlimited flow failure of surface crust. Effects of void ratio redistribution and seepage flow will be studied in detail in this type of cetrifuge tests.
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1 Thesis Statement
The paths forward for evaluating seismic performance of geotechnical structures along the framework of LEAP project are to expand the scope of soil element tests from the conventional cyclic undrained tests toward the undrained shear with additional static deviator stress and to expand the scope of centrifuge tests from the behavior of homogenous sand deposit toward the non-homogenous sand deposit involving the effects of void redistribution due to pore water flow.
2 Essay
The laboratory tests of soil specimens have been typically performed through drained/undrained monotonic and cyclic shear tests. However, soil element behavior in the typical soil-structure system in two or three dimension includes the effect of initial static deviator stress in addition to the cyclic shear during shaking. The paths forward to improving the understanding of the source of uncertainty in evaluating the seismic behavior of soil-structure systems are to include this type of soil element tests. Figure 34.1 indicates two of the possible combinations of the static and cyclic shear.
The stress path A is easier to perform using the triaxial testing device. The stress path B is more difficult to perform and needs a testing device such as a hollow cylinder testing device. However, the stress path B has wider applications such as for evaluating behavior of shallow foundations.
The centrifuge tests of soil-structure systems have been often performed using homogenous sand deposit. In these tests, the excess pore water pressure in the sand deposit typically shows initial increase during shaking and then dissipation afterwards associated with settlement. The paths forward along the line of the LEAP project are to expand the scope toward the non-homogenous sand deposit involving the effects of void redistribution due to pore water flow.
The simplest example of the non-homogenous sand deposit can be a combination of liquefiable sand layer overlain by a surface crust layer of less permeable nature as shown in Fig. 34.2 (Iai 2017). With the slight inclination, there may be a potential for unlimited sliding along the boundary of the two layers depending on the void ratio and thus the phenomenon involved in this type of tests can be the basis for evaluating the combined effects of steady state, void ratio dependency, and rate of void redistribution associated with the seepage flow of pore water toward the boundary of two layers. The application of this degree of complexity in practice can be proven to be useful (Fig. 34.3).
Reference
Iai, S. (2017). Performance of port structures during earthquakes. In Proceedings of the Third International Conference on Performance-Based Design of Geotechnical Structures, Vancouver.
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Iai, S. (2020). Paths Forward for Evaluating Seismic Performance of Geotechnical Structures. In: Kutter, B., Manzari, M., Zeghal, M. (eds) Model Tests and Numerical Simulations of Liquefaction and Lateral Spreading. Springer, Cham. https://doi.org/10.1007/978-3-030-22818-7_34
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DOI: https://doi.org/10.1007/978-3-030-22818-7_34
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