Effect of particle size ratio and contribution of particle size fractions on micromechanics of uniaxially compressed binary sphere mixtures

Wiącek, Joanna; Parafiniuk, Piotr; Stasiak, Mateusz

doi:10.1007/s10035-017-0719-4

Cited by 16 publications

(11 citation statements)

References 29 publications

(53 reference statements)

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“…Heterogeneous distributions of contact angles with a preference for the vertical and horizontal directions were observed in monodisperse samples, in which ordered structures were formed by uniformly sized particles. The prevalence of contact normals directed vertically and horizontally was also observed in binary packings, that increased with increasing g. In all packings with g = 1.25, in which particles were arranged in a nearly crystalline formation, the vertical contact direction prevailed and degree of contact orientation anisotropy changed slightly with increasing n. For samples with g > 1.25, degree of anisotropy in the distribution of contact angles decreased with increasing n. These finding agree with those of Wiącek and Molenda [12] for polydisperse samples with continuous PSDs and the results of Wiącek et al [19] for binary granular packings.…”

Section: Geometric Anisotropysupporting

confidence: 90%

“…The mechanical properties and compaction characteristics of polydisperse materials have been extensively studied because, in granular systems, particle rearrangement and contact networks are determined by the degree of heterogeneity in particle size [12,19]. Wiącek et al [19] numerically studied the effect of particle size ratio on geometric anisotropy in binary sphere packings.…”

Section: Introductionmentioning

confidence: 99%

“…A higher number of particle size classes indicated a higher degree of complexity and makes interpreting the materials' characteristics more difficult. Numerous studies have focused on bimodal particulate beds, which are the simplest example of a polydisperse granular material [6,13,[16][17][18][19]21,22], along with systems composed of three or four particle size fractions [6,14,[23][24][25][26][27]. These studies provided valuable knowledge related to the structural and mechanical properties of polydisperse granular materials.…”

Section: Introductionmentioning

confidence: 99%

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Effect of the particle size ratio on the structural properties of granular mixtures with discrete particle size distribution

Wiącek

Stasiak

2018

Granular Matter

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In this study, the discrete element method was used to examine the structural properties and geometric anisotropy of polydisperse granular packings with discrete uniform particle size distributions. Confined uniaxial compression was applied to granular mixtures with different particle size fractions. The particle size fraction (class) was defined as the fraction of the sample composed of particles with a certain size. The threshold value of number of particle size fractions (i.e., the value above which structural properties of assemblies remain constant) was determined. The effect of heterogeneity in particle size on the critical value of number of particle size fractions was investigated for packings with different ratios between diameters of the largest and smallest grains. The threshold number of particle size classes decreased from five to three as the diameter ratio between the largest and smallest grains increased. Regardless of the diameter ratio, the critical number of particle size fractions (above which the packing density and coordination number of the granular mixtures remained constant) was determined to be five. The study has also shown an increase in packing density of binary mixtures with particle size ratio increasing up to 2.5, which was followed by decrease in density of mixtures with larger particle size ratios, which has not so far been reported in the literature.

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Section: Geometric Anisotropysupporting

confidence: 90%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Effect of the particle size ratio on the structural properties of granular mixtures with discrete particle size distribution

Wiącek

Stasiak

2018

Granular Matter

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“…The composition of multi-sized mixtures, determining packing density and distribution of contacts in granular assemblies, also has great influence on their mechanical properties. Micromechanical properties (e.g., distribution of normal contact forces, stress transmission, mobilisation of friction at contact points) and macromechanical properties (e.g., flowability, permeability, elasticity and strength) of granular packings were both found to be affected by degree of particle size heterogeneity and volume fraction of particle size classes [17][18][19][20][21].…”

Section: Introductionmentioning

confidence: 99%

Structural and Micromechanical Properties of Ternary Granular Packings: Effect of Particle Size Ratio and Number Fraction of Particle Size Classes

2020

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The confined uniaxial tests of packings with discrete particle size distribution (PSD) were modeled with the discrete element method. Ternary packings of spheres with PSD uniform or nonuniform by number of particles were examined in three-dimensional (3D) system. The study addressed an effect of the particle size ratio and the particle size fraction on structural and micromechanical properties of mixtures. A study of packing structure included porosity and coordination numbers, while the investigation of micromechanical properties included distribution of normal contact forces and stress transmission through the packing. A micro-scale investigation of the effect of particle size ratio on structure and mechanics of the ternary packings revealed a strong relationship between the properties of sample and the value of parameter till its critical value was reached. A further increase in particle size ratio did not significantly affect properties of packings. Contrary to the porosity and coordination numbers, the partial stresses were highly affected by the fraction of particle size classes in ternary mixtures. The contribution of the partial stress into the global stress was determined by number fraction of particles in packings with small particle size ratio, while it was mainly determined by particle size ratio in packings with small particle size ratio.

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“…Packed beds of granular materials are the focus of numerous experimental and theoretical studies due to their widespread prevalence in nature and common application in industry (Hu et al, 2017;Oschmann and Kruggel-Emden, 2017;Więcek, Parafiniuk and Stasiak, 2017;Krzywanski et al, 2017).…”

Section: Introductionmentioning

confidence: 99%

Computational domain discretization in numerical analysis of forced convective heat transfer within packed beds of granular materials

2018

Engineering Mechanics

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Computational Fluid Dynamics (CFD) is a very effective research tool in the analysis of heat transfer within backed beds of granular materials. Computational domain discretization is the preprocessing stage in CFD analysis and it highly contributes to reducing the level of solution error as well as increasing the numerical stability of the model. The discretization of domain representing a packed bed of granular material is a demanding task due to the topology of the model consisting of spherical granules contacting tangentially. Therefore the aim of the carried out research was to define guidelines to effectively discretize the computational domain representing the packed bed of granular material. Two methods of contact point representation between granules and two mesh types (tetrahedral and polyhedral) are investigated. Differences between the analyzed cases are discussed.

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Effect of particle size ratio and contribution of particle size fractions on micromechanics of uniaxially compressed binary sphere mixtures

Cited by 16 publications

References 29 publications

Effect of the particle size ratio on the structural properties of granular mixtures with discrete particle size distribution

Effect of the particle size ratio on the structural properties of granular mixtures with discrete particle size distribution

Structural and Micromechanical Properties of Ternary Granular Packings: Effect of Particle Size Ratio and Number Fraction of Particle Size Classes

Computational domain discretization in numerical analysis of forced convective heat transfer within packed beds of granular materials

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