A platform for research: civil engineering, architecture and urbanism
A platform for research: civil engineering, architecture and urbanism
A 3D Grain-Based Model for Simulating the Micromechanical Behavior of Salt Rock
Abstract A novel 3D grain-based model (3D-GBM) based on Voronoi tessellation technology is proposed and implemented into a three-dimensional particle flow code ($ PFC^{3D} $) to investigate the micromechanical properties of salt rock at the grain scale. Parameter calibration is performed for numerical test configurations with various microparameters matched with the macroresponses observed in laboratory experiments (e.g., uniaxial compression test, triaxial compression test, and the Brazilian splitting test). Verifications comparing the simulated results and laboratory tests indicate that the 3D-GBM provides an alternative and promising approach for efficiently reproducing the micromechanical behavior of crystalline salt rocks.
A 3D Grain-Based Model for Simulating the Micromechanical Behavior of Salt Rock
Abstract A novel 3D grain-based model (3D-GBM) based on Voronoi tessellation technology is proposed and implemented into a three-dimensional particle flow code ($ PFC^{3D} $) to investigate the micromechanical properties of salt rock at the grain scale. Parameter calibration is performed for numerical test configurations with various microparameters matched with the macroresponses observed in laboratory experiments (e.g., uniaxial compression test, triaxial compression test, and the Brazilian splitting test). Verifications comparing the simulated results and laboratory tests indicate that the 3D-GBM provides an alternative and promising approach for efficiently reproducing the micromechanical behavior of crystalline salt rocks.
A 3D Grain-Based Model for Simulating the Micromechanical Behavior of Salt Rock
Li, Huan (author) / Ma, Hongling (author) / Shi, Xilin (author) / Zhou, Jun (author) / Zhang, Haina (author) / Daemen, J. J. K. (author)
2020
Article (Journal)
Electronic Resource
English
BKL:
38.58
Geomechanik
/
56.20
Ingenieurgeologie, Bodenmechanik
/
38.58$jGeomechanik
/
56.20$jIngenieurgeologie$jBodenmechanik
RVK:
ELIB41
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Micromechanical Model for Simulating the Fracture Process of Rock
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