The effect of particle shape on the deformation and stress reduction of a gravel soil due to wetting

Mahinroosta, Reza; Oshtaghi, Vahid

doi:10.1038/s41598-021-95731-y

Cited by 11 publications

(4 citation statements)

References 30 publications

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“…As the key component of soil texture, the content and distribution of gravel particles affect soil physical structure and hydrological processes such as soil water storage, runoff, water infiltration, solute transport, and water flow (Dan et al, 2023; Mahinroosta & Oshtaghi, 2021; Qiu et al, 2015; Smets et al, 2011; Wang et al, 2019); they also could reduce the mechanical resistance to root extension (Alameda & Villar, 2012), and may cause root aggregation and growth (Clark et al, 2003). Howover, the impact and the underlying mechanism of soil gravels are relatively complex (Han et al, 2021; Li, Wang, et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

Soil gravel content and plant species configuration control vegetation restoration in Qinghai‐Tibet Plateau

You,

Wu,

Han

et al. 2024

Land Degrad Dev

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Soil gravel content strongly affects ecological restoration; however, the response and mechanism of plant traits to soil gravel content under the sensitive and fragile natural environment of Qinghai‐Tibet Plateau remains unclear. Herein, soils with three gravel content (10%, 30%, 50%) in the southeastern Tibetan Plateau were selected, and three plant species (one native plants of Elymus dahuricus (Ed), and two introduced ones of Festuca elata (Fe) and Medicago sativa (Ms)) were used in seven planting patterns with different proportions (Fe, Ed, Ms, Fe + Ed (1:1), Fe + Ms (2:1), Ed + Ms (2:1), Fe + Ed + Ms (2:2:1)). Plant traits, phytochemical properties and soil stoichiometric characteristics were measured to explore the interactive effects of soil gravels and plant species on vegetation restoration. Average plant height, coverage, shoot biomass, and total biomass were most affected by plant species (F = 277–611, p < 0.01), followed by gravel content (F = 90–195, p < 0.01) and their interaction (F = 5–51, p < 0.05); root biomass was most affected by gravel content (F = 130, p < 0.01). Among plant species, shoot and root biomass, total biomass overall decreased in the order of Fe + Ed + Ms>Fe>Fe + Ms>Fe + Ed>Ms>Ms + Ed>Ed. Plant total biomass, shoot biomass, root biomass and shoot/root ratio among different soils overall decreased in the order of low> high> medium gravel contents. All plant species were restricted by soil nitrogen except for Ed and Ed + Ms (N:P > 14). In addition, increasing the gravel content in the soil will increase the soil bulk density and reduce the total soil porosity. The total soil porosity is significantly positively correlated with the average plant height, coverage, aboveground biomass, and total biomass of plants (r = 0.78–0.91, p < 0.05). The total nitrogen content, total phosphorus (TP) content, and N: P in rhizosphere soil were significantly positively correlated with the average plant height, coverage, aboveground biomass, root biomass, and total biomass of plants (r = 0.70–0.97, p < 0.05), but soil N was significantly positively correlated with aboveground biomass and total biomass (r = 0.69, 0.71, p < 0.05), and there was no significant difference in soil TP content between them. The gravel content directly affects plant growth by changing bulk density and total porosity, but the combined effect of soil nutrients and plants affects plant growth. Therefore, optimizing the configuration of soil properties (mainly nitrogen and compactness) and plant species (isecologic niche plants) is an effective strategy for ecological restoration in the Qinghai‐Tibet Plateau.

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Section: Introductionmentioning

confidence: 99%

Soil gravel content and plant species configuration control vegetation restoration in Qinghai‐Tibet Plateau

You,

Wu,

Han

et al. 2024

Land Degrad Dev

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“…shear strength, peak friction angle, etc) of sandy soils. With the support of a medium-scale direct shear device, Reza Mahinroosta et al [2] investigated the influence of particle morphology on stress reduction and collapse deformation in gravelly soils under varying relative densities, normal stresses, and shear stresses. In addition, Yang Lin et al [3] observed obvious structural failure and rearrangement of a two-dimensional stacked lattice granular system when being compressed.…”

Section: Introductionmentioning

confidence: 99%

Contact characteristics and wall and corner effect of abandoned dreg based on parallel line characteristics of particles

Song,

Huo

2024

Preprint

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Waste dump sites are extensively produced during the process of engineering constructions. The side slopes of these artificial geological bodies possess waste particles with varying shapes, and the deformation and failure mechanisms are often complex, leading to frequently occurred slope instability events. In this study, we simplified waste particles by defining 4 types of particles with different shapes, which are distinguished by the presence of parallel sides. By performing a series of numerical simulations of direct shear tests, we investigated the wall-corner effect and mesoscopic contact characteristics of the interior of particle deposits. The results prove the existence of wall-corner effect in the waste deposits. Loose particle arrangement and penetrating voids extending along the shear force direction can be observed. The uniform distribution of force chain in parallel-sided waste particles is disrupted, while a circular distribution or the disruption of force chain development is seen in non-parallel-sided particles, indicative of the generation of penetrating voids. When the confining pressure is low, the angle of internal void spaces inside the particles deflects when the shear displacement is 3-6mm, and this deflection in parallel-sided particles is not obvious compared with that in non-parallel-sided particles. Specifically for the hexagonal waste particles, the extension angle is positively correlated with the confining pressure in the early and middle shear stage. Under the effect of increasing confining pressure or shear force, the arrangement of particles gradually become ordered, and the void spaces extend toward the central and corner areas of the shear zone. In practical engineering, these void spaces can be filled with heterogeneous wastes, and drainage measures can be set in the corners of the retaining wall, thereby mitigating the influence of penetrating voids on the stability of waste dump slopes.

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“…The shape of particles has a significant effect on interactions with fluids 7 . In the field of macro- and microgeotechnical mechanics, the shape of particles can affect the mechanical properties of sand 8 , 9 . Researchers have conducted the discrete element method (DEM) simulations to study the macroscopic and microscopic mechanical behavior of sand particles 10 – 15 , based on the true shape of the particles and the generation of angular particles 16 – 18 .…”

Section: Introductionmentioning

confidence: 99%

An improved corner dealiasing and recognition algorithm for 2D Wadell roundness computation

Chen,

Zhang,

Lin

et al. 2024

Sci Rep

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This paper optimizes the 2D Wadell roundness calculation of particles based on digital image processing methods. An algorithm for grouping corner key points is proposed to distinguish each independent corner. Additionally, the cyclic midpoint filtering method is introduced for corner dealiasing, aiming to mitigate aliasing issues effectively. The relationships between the number of corner pixels (m), the central angle of the corner (α) and the parameter of the dealiasing degree (n) are established. The Krumbein chart and a sandstone thin section image were used as examples to calculate the 2D Wadell roundness. A set of regular shapes is calculated, and the error of this method is discussed. When α ≥ 30°, the maximum error of Wadell roundness for regular shapes is 5.21%; when 12° ≤ α < 30°, the maximum error increases. By applying interpolation to increase the corner pixels to the minimum number (m0) within the allowable range of error, based on the α-m0 relational expression obtained in this study, the error of the corner circle can be minimized. The results indicate that as the value of m increases, the optimal range interval for n also widens. Additionally, a higher value of α leads to a lower dependence on m. The study's results can be applied to dealiasing and shape analysis of complex closed contours.

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The effect of particle shape on the deformation and stress reduction of a gravel soil due to wetting

Cited by 11 publications

References 30 publications

Soil gravel content and plant species configuration control vegetation restoration in Qinghai‐Tibet Plateau

Soil gravel content and plant species configuration control vegetation restoration in Qinghai‐Tibet Plateau

Contact characteristics and wall and corner effect of abandoned dreg based on parallel line characteristics of particles

An improved corner dealiasing and recognition algorithm for 2D Wadell roundness computation

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