Relationships between gradation and deformation behavior of dense granular materials: Role of high‐order gradation characteristics

He, Jun Kit; Liu, Fang; Deng, Gang; Fu, Pengcheng

doi:10.1002/nag.3224

Num Anal Meth Geomechanics

2021

DOI: 10.1002/nag.3224

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Relationships between gradation and deformation behavior of dense granular materials: Role of high‐order gradation characteristics

Jun Kit He

Fang Liu

Gang Deng

et al.

Abstract: This paper numerically investigates deformation behavior of coarse‐grained granular materials with emphasis on the effect of grain size distribution (GSD). Biaxial compression tests are simulated in two dimensions using distinct element method (DEM) on a set of samples composed of uncrushable spheres following a wide variety of GSDs. The results prove that high‐order characteristics of gradation, such as the shape of the GSD curve, significantly affect deformation behavior of widely‐graded materials. Two gradi… Show more

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Cited by 6 publications

References 64 publications

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Understanding the interplay between particle shape, grading and sample density on the behaviour of granular assemblies: A DEM approach

Adesina,

O’Sullivan,

Wang

2024

Granular Matter

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This study investigates the interplay between particle shape, grading and initial sample density, three of the most important factors influencing the mechanical behaviour of sheared granular assemblies. Using the discrete element method (DEM), two-dimensional assemblies of varying initial sample density, particle aspect ratio, $$AR$$ AR , and coefficients of uniformity, $${C}_{u}$$ C u , were prepared and subjected to drained biaxial shearing until the critical state was reached. We assessed the interplay between each of these parameters by evaluating whether the effect of any given parameter on a mechanical quantity is influenced by any other parameter. Our analyses show that the effect of some of these key parameters on mechanical response, can indeed be influenced by other key parameters. The effect of the particle $$AR$$ AR on the peak shear strength for the initially dense assemblies differs when compared with the medium-dense assemblies. The mechanical coordination number of the assemblies at the initial state correlates with the peak strength thereby explaining the interplay between particle $$AR$$ AR and initial sample density on the peak shear strength. The linear relationship established between strength and dilatancy for a combination of all assemblies studied suggests that the strength-dilatancy relationship is a unique characteristic of granular assemblies. The dilatancy of the assemblies correlates strongly with the amount of contacts lost during shearing. The interplays found between particle shape, grading and initial sample density in this study show that to develop robust constitutive models for the prediction of granular material behaviour, the effects of multiple factors must be considered. Graphic abstract

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Understanding the interplay between particle shape, grading and sample density on the behaviour of granular assemblies: A DEM approach

Adesina,

O’Sullivan,

Wang

2024

Granular Matter

View full text Add to dashboard Cite

show abstract

DEM investigation of the microscopic mechanism of scale effect of sandy gravel material

Zhou

et al. 2022

Acta Geotech.

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Small DEM sample size can lead to qualitatively erroneous results

Deng

Han

et al. 2023

Acta Geotech.

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Relationships between gradation and deformation behavior of dense granular materials: Role of high‐order gradation characteristics

Cited by 6 publications

References 64 publications

Understanding the interplay between particle shape, grading and sample density on the behaviour of granular assemblies: A DEM approach

Understanding the interplay between particle shape, grading and sample density on the behaviour of granular assemblies: A DEM approach

DEM investigation of the microscopic mechanism of scale effect of sandy gravel material

Small DEM sample size can lead to qualitatively erroneous results

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