Dynamics of granular debris flows against slit dams based on the CFD–DEM method: effect of grain size distribution and ambient environments

We propose a constitutive model for both the solid-like and fluid-like behavior of granular materials by decomposing the stress tensor into quasi-static and collisional components. A hypoplastic model is adopted for the solid-like behavior in the quasi-static regime, while the viscous and dilatant behavior in the fluid-like regime is represented by a modified $$\mu (I)$$ μ ( I ) rheology model. This model effectively captures the transition between solid-like and fluid-like flows. Performance and validation of the proposed model are demonstrated through numerical simulations of element tests.

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Dynamics of granular debris flows against slit dams based on the CFD–DEM method: effect of grain size distribution and ambient environments

Cited by 11 publications

References 88 publications

Experimental Study of Debris Flows Impacting a Novel Barrier Based on Negative Poisson’s Ratio (NPR) Cables

Experimental Study of Debris Flows Impacting a Novel Barrier Based on Negative Poisson’s Ratio (NPR) Cables

Study of the dynamics of water-enriched debris flow and its impact on slit-type barriers by a modified SPH–DEM coupling approach

Numerical model for solid-like and fluid-like behavior of granular flows

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