期刊
INTERNATIONAL JOURNAL FOR NUMERICAL METHODS IN ENGINEERING
卷 122, 期 20, 页码 5626-5655出版社
WILEY
DOI: 10.1002/nme.6766
关键词
computational particle mechanics; contact detection and resolution; discrete element method; irregular-shaped particles; spherical harmonics
资金
- National Natural Science Foundation of China [51878416, 51938008, 52090084]
- Research Grants Council, University Grants Committee Hong Kong [R5037-18F]
This study presents an innovative and computationally effective DEM method that directly utilizes spherical harmonic functions for simulating 3D irregular-shaped particles. By representing discrete surface points of particles with a limited number of harmonic coefficients and computing physical quantities using spherical harmonic functions, specific algorithms for interparticle contact resolution and overlapping detection are developed, leading to computation of contact forces, moments, and particle movements. The feasibility and capability of the proposed method are demonstrated through simulations, indicating its potential for realistic modeling in various engineering and industrial processes.
Different from previous discrete element methods (DEM), where irregular 3D particle shapes are approximated by subspheres, vertices, or voxels, this study aims to develop an innovative and computationally effective DEM method directly employing spherical harmonic functions for simulations of 3D irregular-shaped particles. First, the discrete surface points of a 3D irregular-shaped particle are represented by spherical harmonic functions with only a limited number of harmonic coefficients to restore the particle morphology. Then, the intrinsic physical quantities are computed directly using spherical harmonic functions. Next, specific algorithms for interparticle overlapping detection and contact resolution involving the spherical harmonic functions are developed. Subsequently, the interparticle contact forces, moments, and particle movements are computed. The feasibility and capability of the proposed 3D method are verified by simulating random deposition of superellipsoids, repose angle tests, and triaxial tests on particles with various shapes. The proposed method could pave a viable pathway for realistic modeling of granular media pertaining to various engineering and industrial processes.
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