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Arabian Journal for Science and Engineering

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17.02.2020 | Research Article-Civil Engineering

NMR-Based Study on Soil Pore Structures Affected by Drying–Wetting Cycles

verfasst von: Jungui Dong, Haibo Lyu, Guoyuan Xu, Cong He

Erschienen in: Arabian Journal for Science and Engineering | Ausgabe 5/2020

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Abstract

Experimental tests are conducted to investigate pore structure variations during the swelling process of expansive soils that experienced 0–4 drying–wetting cycles. The mathematical connection between the swelling deformations and pore structures is analyzed by nuclear magnetic resonance. The experimental results show that the specimens subjected to 1–4 cycles show higher swelling rates. Swelling curves are divided into rapid swelling, slow swelling and slowly stable stages, and three straight lines are appropriate to fit these curves. Based on a defined T₂ cutoff (T_2C = 1.84 ms) for the relaxation time, the pores in the test specimens are divided into micropores (r ˂ 1.28 nm) and macropores (r ≥ 1.28 nm). With a lower water content (ω < 19.0%), the proportions of these two pore types are close to each other. When the water content exceeds 19.0%, a significantly large proportion of the macropores that is the main factor which causes swelling deformation in the wetting process of soil is observed. Drying–wetting cycles expand the spaces among the soil particles, and the cycle number shows a linear relationship with the macropores, while it exerts less influence on the micropores. If the soil is subjected to multiple drying–wetting cycles, the ability of the soil to prevent erosion is weakened since the water in the macropores is more readily lost.

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Titel: NMR-Based Study on Soil Pore Structures Affected by Drying–Wetting Cycles
verfasst von: Jungui Dong
Haibo Lyu
Guoyuan Xu
Cong He
Publikationsdatum: 17.02.2020
Verlag: Springer Berlin Heidelberg
Erschienen in: Arabian Journal for Science and Engineering / Ausgabe 5/2020
Print ISSN: 2193-567X
Elektronische ISSN: 2191-4281
DOI: https://doi.org/10.1007/s13369-020-04409-6

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