Influence of particle breakage on the dynamic compression responses of brittle granular materials
Huang, J.; Xu, S.; Hu, S.
Mechanics of Materials 68: 15-28
2014
ISSN/ISBN: 0167-6636
DOI: 10.1016/j.mechmat.2013.08.002
Accession: 067014671
PDF emailed within 0-6 h: $19.90
Related References
Mogami Takeo; Yoshikoshi Hiroshi 1971: On influence of particle breakage and particle shape on shearing resistance of coarse granular materials Pages 141-146 1971Ziegelhoeffer A.; De Jong J.W.; Ferrari R.; Turi Nagy L. 1987: Influence of particle breakage on the wall friction of brittle particulate solids Powder Technology 49(3): 277-288
Liu, Y; Liu, H; Mao, H 2017: DEM investigation of the effect of intermediate principle stress on particle breakage of granular materials Computers and Geotechnics 84: 58-67
Tong, C.-X.; Zhang, K.-F.; Zhang, S.; Sheng, D. 2019: A stochastic particle breakage model for granular soils subjected to one-dimensional compression with emphasis on the evolution of coordination number Computers and Geotechnics 112: 72-80
Ovalle, C; Dano, C; Hicher, P-Yves; Cisternas, Mónica 2015: Experimental framework for evaluating the mechanical behavior of dry and wet crushable granular materials based on the particle breakage ratio Canadian Geotechnical Journal 52(5): 587-598
Hung, J.J.; Chen, H.M. 1980: Experimental study on particle breakage of rockfill materials due to compaction, weathering, compression and wetting Proceedings of the Southeast Asian Conference on Soil Engineering 6(2): 293-303
Evans, A.G.; Wilshaw, T.R. 1977: Dynamic solid particle damage in brittle materials: an appraisal Journal of Materials Science 12(1): 97-116
Iveson, S.M.; Page, N.W. 2004: Brittle to plastic transition in the Dynamic mechanical behavior of partially Saturated granular materials Journal of Applied Mechanics 71(4): 470-475
Orefice, L.; Khinast, J.G. 2020: Deformable and breakable Dem particle clusters for modelling compression of plastic and brittle porous materials Model and structure properties Powder Technology 368: 90-104
Rachel, M. Smith; James, D. Litster 2012: Examining the failure modes of wet granular materials using dynamic diametrical compression Powder Technology 224: 189-195
Frenning, Göran.; Alderborn, Göran. 2005: Evolution of distributions and spatial correlations of single-particle forces and stresses during compression of ductile granular materials Physical Review. E Statistical Nonlinear and Soft Matter Physics 71(1 Pt 1): 011305
Simon, M. Iveson; Neil, W. Page 2005: Dynamic strength of liquid-bound granular materials: The effect of particle size and shape Powder Technology 152(1-3): 79-89
Guo, P.J.; Stolle, D.F.E. 2006: Fabric and particle shape influence on K (sub o) of granular materials Soils and Foundations 46(5): 639-652
Liburkin, R; Portnikov, D; Kalman, H 2015: Comparing particle breakage in an uniaxial confined compression test to single particle crush testsmodel and experimental results Powder Technology 284: 344-354
Rothenburg, L.; Bathurst, R.J. 1993: Influence of particle eccentricity on micromechanical behavior of granular materials Mechanics of Materials 16(1-2): 141-152