Download This PaperImpact Shaking Test On Excess Pore Pressure Development And Water Film Generation in Layered Sands
15 Pages Posted: 18 Jan 2024
Abstract
Layered structure in sand deposits is prevalent not only in reclaimed soils but also in natural alluvial soils. Liquefaction tests by a self-developed impact load system were carried out to investigate the pore water pressure generation and related liquefaction mechanism in layered sands, considering cases of uniform, two layered and interlayered sand columns respectively. Results show that the dynamic pore pressure of saturated sands under impact loading presents two phases: transient response and steady-state response. For sands without interlayer, lower-permeability soil layer determines the rate of pore pressure dissipation and lower permeability can result in smaller value of steady pore pressure but longer duration of that. For interlayered sands, presence of less permeable interlayer will prolong the total duration of pore pressure dissipation, and there is a significant "high pore pressure" sustained period during the dissipation stage of pore pressure, which is unfavorable for the liquefaction. Besides, the presence of a less permeable interlayer within the sand deposit can lead to formation of water film underneath the interlayer. Besides, theoretical analysis of pore pressure and water film under the same conditions are made, and it shows a good consistency between theoretical and test results, which verifies the rationality and reference value of the test analysis in this paper.
Keywords: Impact test, Pore water pressure, Interlayer, Water film, Theoretical analysis
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