Effect of Flexible Membrane in Triaxial Test on the Mechanical Behaviour of Rockfill Material using Discrete Element Method

Reza Asadi, Mahdi M. Disfani (Lead / Corresponding author), Behrooz Ghahreman-Nejad, Matteo Oryem Ciantia

Research output: Contribution to journalArticlepeer-review

1 Citation (Scopus)
33 Downloads (Pure)

Abstract

The investigation of rockfill materials poses challenges due to their large particle size, associated high cost, and long laboratory testing duration. As a result, empirical correlations based on historical experimental studies are commonly used to design and analyse rockfill structures. However, the extensive use of rockfill in a wide range of applications and limited understanding of its mechanical behaviour emphasize the need for further research. These make it necessary to develop a robust technique capable of capturing key parameters such as particle shape and breakage, allowing for the simulation and study of large-scale assemblies with realistic boundary conditions. Given that the behaviour of rockfill is highly scale-dependent, primarily due to particle breakage, the simplified laboratory tests on the scaled-down assemblies can be misleading. Particle breakage is a fundamental phenomenon in the mechanical behaviour of rockfill and significantly affects shear strength, deformability, and porosity under different stress levels. The particle breakage is influenced by factors such as the rockfill’s maximum particle size, mineralogy, particle shape, gradation, and confining stresses. This study adopts a computationally efficient breakage method called the Modified Particle Replacement Method (MPRM) based on the Discrete Element Method. A Tile-Based Flexible Membrane (TBFM) for triaxial test modelling has been developed by employing segmental rectangular walls to create a deformable membrane. The effects of critical parameters, including particle shape, confining stress, membrane resolution, degree of flexibility, and the characteristic strength of the particles, are examined. The findings of the combined MPRM-TBFM approach demonstrate the significant influence of membrane flexibility on volumetric-related behaviour.
Original languageEnglish
Article number70
Number of pages21
JournalGranular Matter
Volume26
Issue number3
DOIs
Publication statusPublished - 5 Jun 2024

Keywords

  • Rockfill
  • Particle Breakage
  • Discrete Element Modelling (DEM)
  • Large-Scale Triaxial Test
  • Flexible Membrane
  • Particle Replacement Method
  • Particle breakage
  • Large-scale triaxial test
  • Discrete element method (DEM)
  • Particle replacement method
  • Flexible membrane

ASJC Scopus subject areas

  • General Materials Science
  • Mechanics of Materials
  • General Physics and Astronomy

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