Algorithm with hybrid method based for sphere packing in two-dimensional region

被引：2

作者：

Fang X.-W. ^{[1
,2
]}

Liu Z.-Y. ^{[1
]}

Tan J.-R. ^{[1
]}

机构：

[1] State Key Laboratory of CAD and CG, Zhejiang University

[2] School of Mechanical Engineering, Taizhou University

来源：

Zhejiang Daxue Xuebao (Gongxue Ban)/Journal of Zhejiang University (Engineering Science) | 2011年 / 45卷 / 04期

关键词：

Constructive method; Discrete element; Dynamic method; Sphere packing; Touch detection;

D O I：

10.3785/j.issn.1008-973X.2011.04.010

中图分类号：

学科分类号：

摘要：

A new hybrid method was proposed for sphere packing in two-dimensional region, which combined the traditional dynamic method with the traditional constructive method. The algorithm calculated the particles' moving directions with two different methods according to the two different touching objectives during the process of falling. When the touching objective was particle, the moving direction was calculated with the purely geometric-based method in which the new direction was downward along the tangential direction of the two-contact particles' touching point. The moving direction of the particle approximated the physical law of the dynamic method. When the touching objective was the boundary of the container, the new direction was calculated with the elastic collision theory, which consisted with the physical law of the dynamic method. The touch detections between particles were based on the advancing-front elements of the constructive method. The time to create the granular particles set was linear with the particle number, and this process was completed in a comparatively short time with high density particles set.

引用

页码：650 / 655

页数：5

共 18 条

[1] Webb M.D., Lee Davis I., Random particle packing with large particle size variations using reduced-dimension algorithms, Powder Technology, 167, 1, pp. 10-19, (2006)
[2] Feng Y.T., Han K., Owen D.R.J., Filling domains with disks: an advancing front approach, International Journal for Numerical Methods in Engineering, 56, 5, pp. 699-713, (2003)
[3] Han K., Feng Y.T., Owen D.R.J., Sphere packing with a geometric based compression algorithm, Powder Technology, 155, 1, pp. 33-41, (2005)
[4] Bagi K., An algorithm to generate random dense arrangements for discrete element simulations of granular assemblies, Granular Matter, 7, 1, pp. 31-43, (2005)
[5] Munjiza A., Andrews K.R.F., NBS contact detection algorithm for bodies of similar size, International Journal for Numerical Methods in Engineering, 43, 1, pp. 131-149, (1998)
[6] Nezami E.G., Hashash Y.M.A., Zhao D.-W., Et al., A fast contact detection algorithm for 3-D discrete element method, Computers and Geotechnics, 31, 7, pp. 575-587, (2004)
[7] Pochel T., Schwager T., Computational Granular Dynamics: Models and Algorithms, (2005)
[8] Gensane T., Ryckelynck P., Producing dense packings of cubes, Discrete Mathematics, 308, 22, pp. 5230-5245, (2008)
[9] Bagi K., A quasi-static numerical model for micro-level analysis of granular assemblies, Mechanics of Materials, 16, 1-2, pp. 101-110, (1993)
[10] Thomas P., Discontinuous deformation analysis of particulate media, (1997)

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