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Numerical Investigation of the Cushion and Size Effects During Single-Particle Crushing via DEM 被引量:5
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作者 Du-min Kuang Zhi-lin Long +3 位作者 Rui-qi Guo Piao-yi Yu xu-tong zhou Jie Wang 《Acta Mechanica Solida Sinica》 SCIE EI CSCD 2020年第6期851-863,共13页
This paper uses the discrete element method to model the size and cushion effects during single-particle crushing tests.We propose simplified numerical modeling to examine the effects of particle size and coordination... This paper uses the discrete element method to model the size and cushion effects during single-particle crushing tests.We propose simplified numerical modeling to examine the effects of particle size and coordination number on particle breakage behavior.We validate the proposed modeling by comparing the numerical results with the experimental data reported in the literature,in terms of the variability of particle tensile strength and axial force-displacement responses.Based on the numerical results,it is clear that a larger particle size entails a higher tensile strength with a larger discreteness.In addition,the characteristic tensile strength increases linearly with an increasing coordination number.Moreover,smaller particles are more susceptible to the cushion effect than larger particles.The numerical results also indicate that an increasing coordination number induces a more ductile mode of failure.Based on these results,we propose an empirical equation for calculating tensile strength,incorporating both the cushion effect and the size effect. 展开更多
关键词 Particle breakage Cushion effect Size effect Discrete element method
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