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This experimental study investigated the characteristics of nonplastic silt subjected to multiple freeze-thaw cycles. The study used a novel, open test system developed to better represent field conditions in seasonal frost areas than can be achieved with conventional laboratory test setups. Various sensors were used to measure changes in temperature, water content, surface displacement, and electrical conductivity in the soil during five cycles of freeze-thaw testing. The test system featured a transparent window for visual observations of the soil (high resolution photographic images) throughout the duration of testing. The experimental results showed that volumetric water contents in the active layer of the soil sample decreased during the freezing period whereas they increased again when thawing started, reaching water content values closer to the initial values at the end of the thawing period. However, the electrical conductivity in the active layer became much greater than the initial value after freeze-thaw cycles, indicating changes in the pore structure of the soil in the active layer. High-resolution images of the soil sample taken during the freeze-thaw cycles and from soil samples exhumed after completing the five cycles of freeze-thaw confirmed that the nonplastic silt in the active layer became more porous after freeze-thaw cycles, whereas no visible changes in pore structure occurred in the soil beneath the active layer. The amount of the thaw settlement was greater than the amount of the total frost heave for each cycle, indicating a decrease in sample height after freeze-thaw cycles. The experimental results further showed that the frost depth increased after multiple freeze-thaw cycles.

期刊论文 2025-01-01 DOI: 10.1007/s10706-024-03016-8 ISSN: 0960-3182
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