2023
DOI: 10.1016/j.partic.2022.04.004
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Numerical simulation study on particle breakage behavior of granular materials in confined compression tests

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Cited by 7 publications
(2 citation statements)
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“…conducted conventional triaxial tests on the engineering mechanical properties of cohesive soils and related numerical simulations of 3D granular flow, comparing the stress–strain relationship curves of 3D granular body specimens with the indoor triaxial at different confining pressures, respectively, and basically fitting and loading curves of the indoor tests and numerical simulations. Yu et al 25 explored the gangue damage characteristics through the side-limit compression test, and the research results showed that the contact force between gangue and gangue gradually changed from isotropic to anisotropic, and the failure mode under the contact force of gangue was mainly through the failure of single-pass cracks and the failure of multi-short cracks. Li et al 19 used PFC3D model to simulate and analyse the compression deformation characteristics of coal gangue under different particle sizes, and the research results show that the compression deformation has a significant regularity, and the distribution of the particle clusters also presents certain characteristics, at the same time, the research found that the greater the hardness of the gangue filling material, the better the effect of its filling, and further emphasizes the importance of the particle size grading of the crushed gangue particles.…”
Section: Introductionmentioning
confidence: 99%
“…conducted conventional triaxial tests on the engineering mechanical properties of cohesive soils and related numerical simulations of 3D granular flow, comparing the stress–strain relationship curves of 3D granular body specimens with the indoor triaxial at different confining pressures, respectively, and basically fitting and loading curves of the indoor tests and numerical simulations. Yu et al 25 explored the gangue damage characteristics through the side-limit compression test, and the research results showed that the contact force between gangue and gangue gradually changed from isotropic to anisotropic, and the failure mode under the contact force of gangue was mainly through the failure of single-pass cracks and the failure of multi-short cracks. Li et al 19 used PFC3D model to simulate and analyse the compression deformation characteristics of coal gangue under different particle sizes, and the research results show that the compression deformation has a significant regularity, and the distribution of the particle clusters also presents certain characteristics, at the same time, the research found that the greater the hardness of the gangue filling material, the better the effect of its filling, and further emphasizes the importance of the particle size grading of the crushed gangue particles.…”
Section: Introductionmentioning
confidence: 99%
“…It is essential to determine the mechanical and deformation characteristics of agricultural products. To accomplish this, uniaxial compression tests are regarded as one of the most critical testing techniques (Tamás et al, 2015;Celik et al, 2017;Kacal and Koyuncu, 2017;Gao et al, 2021;Yu et al, 2023). However, the number of contacts in the actual machining process is different from the ideal uniaxial compression case for both solid and shell materials.…”
Section: Introductionmentioning
confidence: 99%