Development of free-field and compliant base SPH boundary conditions for large deformation seismic response analysis of geomechanics problems
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Publication:6641906
DOI10.1016/j.cma.2024.117370MaRDI QIDQ6641906
Tien Viet Nguyen, Giang D. Nguyen, Ha H. Bui, Trieu N. Hoang, Thang Trung Nguyen
Publication date: 21 November 2024
Published in: Computer Methods in Applied Mechanics and Engineering (Search for Journal in Brave)
boundary conditionsearthquakeslarge deformationsmoothed particle hydrodynamics (SPH)seismic response analysis
Fluid-solid interactions (including aero- and hydro-elasticity, porosity, etc.) (74F10) Particle methods and lattice-gas methods (76M28) Geophysical solid mechanics (74L05)
Cites Work
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- A simple procedure to improve the pressure evaluation in hydrodynamic context using the SPH
- Extrapolating B splines for interpolation
- Lagrangian-Eulerian finite element formulation for incompressible viscous flows
- High strain Lagrangian hydrodynamics. A three-dimensional SPH code for dynamic material response
- Simulating free surface flows with SPH
- Modeling low Reynolds number incompressible flows using SPH
- Smoothed particle hydrodynamics: Some recent improvements and applications
- A particle method for history-dependent materials
- Fluid-rigid-body interaction simulations and validations using a coupled stabilized ISPH-DEM incorporated with the energy-tracking impulse method for multiple-body contacts
- A hydroelastic fluid-structure interaction solver based on the Riemann-SPH method
- A five-phase approach, SPH framework and applications for predictions of seepage-induced internal erosion and failure in unsaturated/saturated porous media
- Two-phase PFEM with stable nodal integration for large deformation hydromechanical coupled geotechnical problems
- Dynamic analysis of large deformation problems in saturated porous media by smoothed particle finite element method
- Stress-particle smoothed particle hydrodynamics: an application to the failure and post-failure behaviour of slopes
- A continuum framework for coupled solid deformation-fluid flow through anisotropic elastoplastic porous media
- Modeling granular material dynamics and its two-way coupling with moving solid bodies using a continuum representation and the SPH method
- A general SPH framework for transient seepage flows through unsaturated porous media considering anisotropic diffusion
- An improved SPH method: Towards higher-order convergence
- Multiscale, multiphysics modeling of saturated granular materials in large deformation
- An effective and stabilised \((\mathbf{u} - \boldsymbol{p_l})\) SPH framework for large deformation and failure analysis of saturated porous media
- Numerical diffusive terms in weakly-compressible SPH schemes.
- Lagrangian meshfree particles method (SPH) for large deformation and failure flows of geomaterial using elastic-plastic soil constitutive model
- Smoothed particle hydrodynamics: theory and application to non-spherical stars
- THE PARTICLE FINITE ELEMENT METHOD — AN OVERVIEW
- A semi-implicit material point method for coupled thermo-hydro-mechanical simulation of saturated porous media in large deformation
- A general smoothed particle hydrodynamics (SPH) formulation for coupled liquid flow and solid deformation in porous media
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