Combination of discrete element and finite element methods for dynamic analysis of geomechanics problems
From MaRDI portal
Publication:704518
DOI10.1016/j.cma.2003.12.056zbMath1079.74646OpenAlexW1999142786WikidataQ59486266 ScholiaQ59486266MaRDI QIDQ704518
Publication date: 13 January 2005
Published in: Computer Methods in Applied Mechanics and Engineering (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.cma.2003.12.056
Anelastic fracture and damage (74R20) Finite element methods applied to problems in solid mechanics (74S05) Soil and rock mechanics (74L10)
Related Items
Discrete and continuum methods for numerical simulations of non-linear wave propagation in discontinuous media, A reverse augmented constraint preconditioner for Lagrange multiplier methods in contact mechanics, Advances in the particle finite element method for the analysis of fluid-multibody interaction and bed erosion in free surface flows, Critical state plasticity. VI: Meso-scale finite element simulation of strain localization in discrete granular materials, Combined Discrete–Finite Element Modeling of Ballasted Railway Track Under Cyclic Loading, New discrete element models for elastoplastic problems, Modelling of tunnelling processes and rock cutting tool wear with the particle finite element method, The hot optimal transportation meshfree (HOTM) method for materials under extreme dynamic thermomechanical conditions, A semi-implicit discrete-continuum coupling method for porous media based on the effective stress principle at finite strain, An interactive method of interface boundary elements and partitioned finite elements for local continuous/discontinuous deformation problems, A multiscale coupling approach between discrete element method and finite difference method for dynamic analysis, An accurate and robust contact detection algorithm for particle-solid interaction in combined finite-discrete element analysis, A nonlocal multiscale discrete-continuum model for predicting mechanical behavior of granular materials, Concurrent multi-scale modeling of granular materials: role of coarse-graining in FEM-DEM coupling, A novel BEM-DEM coupling in the time domain for simulating dynamic problems in continuous and discontinuous media, Efficient multi-scale staggered coupling of discrete and boundary element methods for dynamic problems, Accurate modelling of the elastic behavior of a continuum with the discrete element method, Investigation on the Integrity of Cement Annulus During Multi-stage Horizontal Fracturing with FEM/DEM, Modeling Mixed Mode Fracture of Concrete by Using the Combined Discrete and Finite Elements Method, 3D Adaptive Combined DE/FE Algorithm for Analyzing Impact Fracture of Laminated Glass, A generic computational model for three-dimensional fracture and fragmentation problems of quasi-brittle materials, A contact algorithm for 3D discrete and finite element contact problems based on penalty function method, Block preconditioning for fault/fracture mechanics saddle-point problems, Three‐dimensional ellipsoidal discrete element modeling of granular materials and its coupling with finite element facets, A coupled 3D isogeometric and discrete element approach for modeling interactions between structures and granular matters, A consistent finite element approach for dynamic crack propagation with explicit time integration, Modelling of cutting tool-soil interaction. II: Macromechanical model and upscaling, An approach to combining 3D discrete and finite element methods based on penalty function method, Adaptive combined DE/FE algorithm for brittle fracture of plane stress problems, A Coupled Discrete–Finite Element Method for the Ice-Induced Vibrations of a Conical Jacket Platform with a GPU-Based Parallel Algorithm, A time domain finite element approach based on time series estimation, Improving the 3D Finite-Discrete Element Method and Its Application in the Simulation of Wheel–Sand Interactions, Application of discrete element method for continuum dynamic problems, High-density sphere packing for discrete element method simulations, A Mesh-Free Approach for Multiscale Modeling in Continuum–Granular Systems, Application of supervised machine learning as a method for identifying DEM contact law parameters, DEM-BEM coupling in time domain for one-dimensional wave propagation
Uses Software
Cites Work
- Unnamed Item
- Unnamed Item
- Unnamed Item
- Unnamed Item
- A new finite element formulation for computational fluid dynamics. VIII. The Galerkin/least-squares method for advective-diffusive equations
- Derivation of stabilized equations for numerical solution of advective-diffusive transport and fluid flow problems
- The finite element patch test revisited. A computer test for convergence, validation and error estimates
- Stabilized finite element method for the transient Navier-Stokes equations based on a pressure gradient projection
- A stabilized finite element method for incompressible viscous flows using a finite increment calculus formulation
- A stabilized formulation for incompressible plasticity using linear triangles and tetrahedra
- An excursion into large rotations
- Stabilization of incompressibility and convection through orthogonal sub-scales in finite element methods
- A stabilized formulation for incompressible elasticity using linear displacement and pressure interpolations.
- The finite element method with Lagrangian multipliers
- Stability and comparison of different linear tetrahedral formulations for nearly incompressible explicit dynamic applications
- An averaged nodal deformation gradient linear tetrahedral element for large strain explicit dynamic applications
- An Unstructured Finite Element Solver for Ship Hydrodynamics Problems
- Triangles and tetrahedra in explicit dynamic codes for solids
- Computation of the stabilization parameter for the finite element solution of advective-diffusive problems
- The patch test for mixed formulations
- A general procedure for deriving stabilized space-time finite element methods for advective-diffusive problems
- A finite point method for incompressible flow problems
- A finite element method for fluid-structure interaction with surface waves using a finite calculus formulation
