Impacts of Drying-Wetting and Loading-Unloading Cycles on Small Strain Shear Modulus of Unsaturated Soils

Ngoc, Thang Pham; Fatahi, Behzad; Khabbaz, Hadi

doi:10.1061/(asce)gm.1943-5622.0001463

Cited by 25 publications

(18 citation statements)

References 71 publications

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“…Nevertheless, Anggraini et al (2016) indicated that wetting-drying cycles could make the curing time longer, and therefore the durability of stabilized soils was enhanced. Similar strengthening behaviour was observed on untreated soil -Gmax increased with increasing wetting-drying cycles due to the effect of suction history-related decrease of saturation degree and void ratio (Heitor et al, 2015;Ngoc et al, 2019;Khosravi et al, 2020). Estabragh et al (2013) investigated the wetting fluid (distilled water, saline water and acidic water) effect on the volume change of swelling soil during wetting-drying cycles.…”

Section: Introductionsupporting

confidence: 53%

Changes of small strain shear modulus and microstructure for a lime-treated silt subjected to wetting-drying cycles

Ying

Cui

Benahmed

et al. 2021

Engineering Geology

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Section: Introductionsupporting

confidence: 53%

Changes of small strain shear modulus and microstructure for a lime-treated silt subjected to wetting-drying cycles

Ying

Cui

Benahmed

et al. 2021

Engineering Geology

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“…In the literature, similar observation was reported. The observed increase in G max may be attributed to the plastic hardening as soil dries and develops suction [1,16]. Fig.…”

Section: Test Programmentioning

confidence: 88%

“…Shear moduli at very small strain (G max ) and large strains (G), are crucial parameters for predicting soil movements and response of soil-structure system when subjected to dynamic loading and when investigating the quality of earthworks via a spectral analysis of surface waves [1]. The constraint modulus (M), on the other hand, was another important soil parameter when designing buried pipe lines and pavements [2,3].…”

Section: Introductionmentioning

confidence: 99%

Very-small to large strain dynamic behaviour of unsaturated sand in a wide range of suction

et al. 2020

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Shear modulus (Gmax at very small strain and G at large strain) and constraint modulus at very small strain (M) are important soil parameters for static and dynamic analysis in geotechnical applications. However, these dynamic properties of unsaturated soil are rarely reported. In this study, a cyclic simple shear apparatus was newly-modified for allowing both the shear and constrained moduli at both very small and large strains to be measured. Benders or ultrasonic sensors were embedded in an unsaturated soil sample for transmitting/receiving shear- and pressure-wave, respectively. Two very-small-strain tests were conducted to determine the Gmax, M and soil damping ratio of a sand for a wide range of suction covering from the boundary-effect, transition and residual zone of the water retention curve of the sand. In addition, six large-strain cyclic simple shear tests were carried out to investigate G. The test results showed that Gmax and M were approximately constant before reaching the air-entry value, but there was a significant increase in Gmax as the sand dried further. Yet, M dropped within the transition zone, and interestingly when the suction was beyond the residual value, M increased. M along the wetting path was higher than that along the drying path. The damping ratio, on the other hand, first reduced before reaching the air-entry value, but it increased at the transition zone and then decreased within the residual zone. At large strain, G/Gmax also increased as suction increased until reaching the residual zone, beyond which the normalised value show substantial decreased.

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“…During the drying process, the water content decreases and the air content increases, resulting in an increase in the van der Waals attraction and reduction of the electrical double repulsion. This results in the aggregation of clay particles [35]. On the contrary, during the wetting process, soil suction and van der Waals attraction between soil particles will decrease, and the electrical double layer repulsion will increase.…”

Section: Structure Of Expansive Soilsmentioning

confidence: 99%

The Influence of Temperature and Water Content on the Behavior of Soils

Wu¹

2020

GEOMATE

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The most widely used construction material for various civil infrastructures is the naturally available, compacted or modified soils. The behavior of these soils is significantly influenced by environmental factors such as the precipitation, evaporation and variations associated with the natural ground water table. The stability and deformation behavior are two key criteria that govern the design of these infrastructures. Soil is a complex material with different phases in unfrozen and frozen conditions. The water content within the unfrozen and frozen soils is influenced by a wide range of negative and positive temperatures. The soil can be in a frozen or thawed, saturated or unsaturated condition or combinations of them due to the variations in temperature and water content. In other words, the hydro-mechanical behavior of soils is significantly influenced by freezing/thawing and wetting/drying processes. In this paper, the influence of variation of temperature and water content on the soil behavior is explained using the soil-water characteristic curve (SWCC) and soil-freezing characteristic curve (SFCC). The SWCC and SFCC are respectively used as tools in the prediction and interpretation of the behavior of unfrozen unsaturated soils and frozen soils. The focus of this paper is directed to understand the influence of wetting/drying, freezing, and freeze-thaw cycles on soil properties such as void ratio, hydraulic conductivity, shear strength, microstructure change and swelling behavior of expansive soils. Finally, the influence of temperature and moisture on the design of pile foundations in expansive soils is succinctly highlighted.

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Impacts of Drying-Wetting and Loading-Unloading Cycles on Small Strain Shear Modulus of Unsaturated Soils

Cited by 25 publications

References 71 publications

Changes of small strain shear modulus and microstructure for a lime-treated silt subjected to wetting-drying cycles

Changes of small strain shear modulus and microstructure for a lime-treated silt subjected to wetting-drying cycles

Very-small to large strain dynamic behaviour of unsaturated sand in a wide range of suction

The Influence of Temperature and Water Content on the Behavior of Soils

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