Pages that link to "Item:Q2856296"

The following pages link to Lagrangian meshfree particles method (SPH) for large deformation and failure flows of geomaterial using elastic-plastic soil constitutive model (Q2856296):

Displaying 33 items.

• Smooth particle hydrodynamics simulations of low Reynolds number flows through porous media (Q2855263) (← links)
• Performance of the SPH Method for Deformation Analyses of Geomaterials (Q2890066) (← links)
• Computational geomechanics: the heritage of Olek Zienkiewicz (Q2894755) (← links)
• A stabilized iterative scheme for coupled hydro-mechanical systems using reproducing kernel particle method (Q2952549) (← links)
• Viscous Elastoplastic SPH Model for Long-Distance High-Speed Landslide (Q4559375) (← links)
• A New Revised Scheme for SPH (Q4563169) (← links)
• Landslides and tsunamis predicted by incompressible smoothed particle hydrodynamics (SPH) with application to the 1958 Lituya Bay event and idealized experiment (Q4647146) (← links)
• GIS Enabled SPH-Soil Modeling for the Post-Failure Flow of Landslides Under Seismic Loadings (Q4962542) (← links)
• Asymmetric Adaptive Particle Refinement in SPH and Its Application in Soil Cutting Problems (Q4962548) (← links)
• Soil–Water-Structure Interaction Algorithm in Smoothed Particle Hydrodynamics (SPH) with Application to Deep-Penetrating Problems (Q4972708) (← links)
• An Improved Support Domain Model of Smoothed Particle Hydrodynamics Method to Simulate Crack Propagation in Materials (Q4987555) (← links)
• SPH Modelling of Dam-break Floods, with Damage Assessment to Electrical Substations (Q5030450) (← links)
• SPH Viscous Flow Around a Circular Cylinder: Impact of Viscous Formulation and Background Pressure (Q5030459) (← links)
• Research on the Coupled Water–Soil SPH Algorithm Improvement and Application Based on Two-phase Mixture Theory (Q5084345) (← links)
• SPH Simulation of High-Volume Rapid Landslides Triggered by Earthquakes Based on a Unified Constitutive Model. Part I: Initiation Process and Slope Failure (Q5207366) (← links)
• SPH Modelling of a Dike Failure with Detection of the Landslide Sliding Surface and Damage Scenarios for an Electricity Pylon (Q5869113) (← links)
• Improved Smoothed Particle Hydrodynamics (SPH) Model for Simulation of Abrasive Water-Jet (AWJ) (Q6048279) (← links)
• Scalable three‐dimensional hybrid continuum‐discrete multiscale modeling of granular media (Q6069990) (← links)
• Expansion of consistent particle method to solve solid mechanics problems (Q6070866) (← links)
• Smoothed particle hydrodynamics for cohesive dense granular media (Q6137916) (← links)
• Three-dimensional simulations of large-scale long run-out landslides with a GPU-accelerated elasto-plastic SPH model (Q6137972) (← links)
• Numerical modeling of the damage mechanism of concrete-soil multilayered medium subjected to underground explosion using the GPU-accelerated SPH (Q6158679) (← links)
• A two-way coupling method for simulating wave-induced breakup of ice floes based on SPH (Q6162850) (← links)
• Smoothed particle hydrodynamics modelling of particle-size segregation in granular flows (Q6186059) (← links)
• A 3D Lagrangian gradient smoothing method framework with an adaptable gradient smoothing domain-constructing algorithm for simulating large deformation free surface flows (Q6497718) (← links)
• Coupling of material point method and discrete element method for granular flows impacting simulations (Q6554997) (← links)
• A Lagrangian gradient smoothing method for solid-flow problems using simplicial mesh (Q6565733) (← links)
• A multi-layer SPH method to simulate water-soil coupling interaction-based on a new wall boundary model (Q6577994) (← links)
• A novel improved domain material point method for the cell-crossing instability problem (Q6583932) (← links)
• ESPFEM2D: a Matlab 2D explicit smoothed particle finite element method code for geotechnical large deformation analysis (Q6604139) (← links)
• An entirely SPH-based FSI solver and numerical investigations on hydrodynamic characteristics of the flexible structure with an ultra-thin characteristic (Q6609764) (← links)
• Development of free-field and compliant base SPH boundary conditions for large deformation seismic response analysis of geomechanics problems (Q6641906) (← links)
• A physical-information-flow-constrained temporal graph neural network-based simulator for granular materials (Q6669023) (← links)