A Novel Method of Calibrating Micro-Scale Parameters of PFC Model and Experimental Validation

Wu, Hao; Dai, Bing; Zhao, Guoyan; Chen, Ying; Tian, Yakun

doi:10.3390/app10093221

Cited by 21 publications

(7 citation statements)

References 43 publications

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“…The parallel bonding model is able to provide both forces and moments, in other words, shear, compressive and torsional resistance when mechanical behavior occurs between particles (Cundall and Strack 1979). When the normal or shear stress on the bond exceeds its normal or shear strength, fracture occurs as tensile or shear cracking, which is more suitable for simulating rock materials (Wu et al 2020). Therefore, the parallel bonding model is used in this paper.…”

Section: Methodsmentioning

confidence: 99%

Numerical simulation study on the deformation and failure of a gently inclined bedding slope: a case study of the Jinhaihu landslide in Guizhou, China

Liu

Shi

Peng

et al. 2022

Preprint

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At approximately 7:00 p.m. on January 3, 2022, a bedding landslide (referred to as the Jinhaihu landslide in this paper) occurred in the Jinhaihu District of Bijie city, Guizhou Province, China, resulting in the death of 14 laborers. The catastrophic landslides induced by the geological conditions in the study area are incomprehensible and deserve an in-depth study of their genetic mechanisms. In this paper, a detailed field investigation was conducted on the Jinhaihu landslide, and the geological background of the landslide area and the characteristics of the landslide were well revealed. The slide zone and rock samples of the landslide site were obtained for physical and mechanical tests to further establish a coupled PFC/FLAC2D model of the landslide area and analyze the genetic mechanism of the Jinhaihu landslide using numerical simulation. The results indicate that the landslide area has been disturbed by long-term engineering, and a large amount of excavation at the foot of the slope has reduced the resistance of the landslide to slide downward, increased the damage to the slope, and provided space for the landslide to move. However, the excavation did not immediately initiate the landslide at the toe, and the claystone containing a large number of illite clay minerals (56.5%) gradually weakened with the infiltration of rainfall before the slope finally failed. The numerical simulation indicated that the excavation at the toe of the slope caused cracks at the crown, the softening of the claystone caused the sliding mass to be divided into blocks by the cracks, and then the sliding mass slid downward along the weak interlayer. First, the sliding mass toppled down and disintegrated at the front edge, and the rear of the sliding mass was tensile-fractured and failed. The movement of the rock blocks on the slide bed has the character of translation with almost no rotation. The evolution process of landslides is divided into four stages: the initial stage, fracture generation stage, softening stage and overall failure stage. The research results of this paper provide a reference for the risk evaluation and disaster prevention of the same category of landslides.

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Section: Methodsmentioning

confidence: 99%

Numerical simulation study on the deformation and failure of a gently inclined bedding slope: a case study of the Jinhaihu landslide in Guizhou, China

Liu

Shi

Peng

et al. 2022

Preprint

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“…Two contact models were used in the numerical model of layered rock samples. The contact among particles in intact rock assigned by the parallel bond model (PBM) had the characteristics that both force and moment can be transmitted [27,28], which can better reflect the mechanical properties of rock materials [29][30][31][32]. The contact among rock beddings adopted the smooth joint model ( SJM ), which was widely used in the modeling of layered rock mass [33][34][35].…”

Section: Numerical Model Of Layered Rock Samplementioning

confidence: 99%

Micro-parameter calibration of layered rock samples with a dual model in PFC3D based on a combined optimization method

Ding,

Zuo,

2024

Preprint

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A combined optimization method termed PB-RSM-NSGA2 was proposed to investigate micro-parameter calibration of layered rock samples with a dual model in Particle Flow Code (PFC). Firstly, the numerical uniaxial compression test with the layered rock samples was conducted, in which the parallel bonding model and the smooth joint model were used to simulate the rock matrix and the interlayer cementation, respectively. The micro-parameters with significant influence on macro response were screened out by the Plackett-Burman (PB) test design. Subsequently, non-linear relationships between macro-parameters and their main controlling micro-parameters were established via the response surface method (RSM) and model verification. Thirdly, the non-linear multi-objective mathematical optimization problem was solved by the Non-dominated Sorting Genetic Algorithm-II (NSGA2), and the micro-parameters were determined. Finally, the uniaxial compression stress-strain curves were modified with a compaction coefficient and compared with the physical test results. The research results revealed that the dual model was highly suitable for simulating the mechanical properties of layered rocks. In the smooth joint model, normal stiffness, tangential stiffness, tangential strength, and bedding thickness significantly impacted layered rock samples' interlayer strength and deformation. The parallel bond model's micro elastic modulus and normal bonding strength significantly influenced the uniaxial compressive strength and peak strain. The corrected simulation curves agreed with the physical test results. The study can provide valuable insights and methods for micro-parameters calibration in PFC3D numerical simulations for layered rock mass engineering stability.

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“…The trial-and-error method was used to obtain the mesoscopic parameters of the block (Wu et al, 2020;Gao et al, 2021). The mesoscopic parameters of the block were obtained by calibrating the macroscopic mechanical parameters of the rock mass (Figure 8; Table 7), as listed in Table 8.…”

Section: Figurementioning

confidence: 99%

Layout timing of mining roadways considering goaf and roof stability

et al. 2023

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Reasonable roadway layout timing can effectively reduce the deformation of the rock surrounding the roadway and relieve mining and excavation tension. To analyze the mine pressure behavior of the gob-side entry at the edge of a goaf and the roof stability along the strike direction in the middle of a goaf, field observations and particle flow discrete element numerical simulation (PFC) method were performed. The results showed that deformation of the surrounding rock mainly occurred because of roof-to-floor convergence, caused mainly by floor heave. The mechanical behaviors of the rock mass, such as elasticity, fracture, and post-peak softening, could be simulated using the model of a jointed rock mass generated by rigid block elements in the PFC method. Considering the length of the violent and reduced roof activity zones and the activity duration as the indices to determine the basic stability of the goaf, the basic stability distance of the tested goaf edge was 135 m after coal seam mining, and the basic stability time was 27 days. The basic stable distance in the middle of the goaf was 183.4 m after coal seam mining, and the basic stability time was 37 days.

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A Novel Method of Calibrating Micro-Scale Parameters of PFC Model and Experimental Validation

Cited by 21 publications

References 43 publications

Numerical simulation study on the deformation and failure of a gently inclined bedding slope: a case study of the Jinhaihu landslide in Guizhou, China

Numerical simulation study on the deformation and failure of a gently inclined bedding slope: a case study of the Jinhaihu landslide in Guizhou, China

Micro-parameter calibration of layered rock samples with a dual model in PFC3D based on a combined optimization method

Layout timing of mining roadways considering goaf and roof stability

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