Computational Particle Mechanics

Papers
(The H4-Index of Computational Particle Mechanics is 16. The table below lists those papers that are above that threshold based on CrossRef citation counts [max. 250 papers]. The publications cover those that have been published in the past four years, i.e., from 2021-08-01 to 2025-08-01.)
ArticleCitations
The use of 3D prints to assess the influence of shape on particle size distribution in the laser diffraction method34
Effects of dual connected vertical plates on flow features of a single square cylinder32
On the sensitivity analysis of the DEM oedometer experiment32
Characterization and prediction of the effects of random factors on buffering efficiency in slope-cushion layer collisions through the discrete element method24
Modeling failure of hyperelastic solids interacting with fluids23
DPM model segregation validation and scaling effect in a rotary drum22
DEM study on threshing performance of “compression–oscillation” thresher22
Peridynamic differential operator-based nonlocal numerical paradigm for a class of nonlinear differential equations21
CFD-DEM Investigation of the effects of particle size and fluidization regime on heat transfer in fluidized beds20
The influence of gravel-scale heterogeneity and scale effect on the mechanical properties of conglomerate20
Initial particle arrangement for the arbitrarily complex geometry of mesh-free methods20
Calibrating microparameters of DEM models by using CEM, DE, EFO, MFO, SSO algorithms and the optimal hyperparameters19
Numerical assessment of the rupture mechanisms in Brazilian test of brittle materials19
A high-resolution pseudo-polygon discrete element model for regional sea ice19
Research on the effect law and microscopic mechanism of particle breakage on rockfill materials18
Analytical and numerical considerations of the minimum fluidization velocity of the molybdenite particles17
Numerical modelling of particle entrainment in the wheel–rail interface16
Simulation study on the two-phase unsaturated microscopic seepage based on digital core technology16
A DEM approach for simulating flexible beam elements with the Project Chrono core module in DualSPHysics16
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