A mortar segment-to-segment frictional contact approach in material point method

Cites Work

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FLIP: A method for adaptively zoned, particle-in-cell calculations of fluid flows in two dimensions
Application of a particle-in-cell method to solid mechanics
A mortar segment-to-segment contact method for large deformation solid mechanics.
The material-point method for granular materials
A particle method for history-dependent materials
SPH without a tensile stability
High-order mortar-based contact element using NURBS for the mapping of contact curved surfaces
Modelling contacts with a total Lagrangian material point method
A generalized particle in cell method for explicit solid dynamics
A hybrid penalty and grid based contact method for the material point method
BFEMP: interpenetration-free MPM-FEM coupling with barrier contact
A mortar segment-to-segment contact method for stabilized total-Lagrangian smoothed particle hydrodynamics
A barrier method for frictional contact on embedded interfaces
A total-Lagrangian material point method for solid mechanics problems involving large deformations
ILS-MPM: an implicit level-set-based material point method for frictional particulate contact mechanics of deformable particles
DP-MPM: domain partitioning material point method for evolving multi-body thermal-mechanical contacts during dynamic fracture and fragmentation
Implicit formulation of material point method for analysis of incompressible materials
A new method for material point method particle updates that reduces noise and enhances stability
Stabilized material point methods for coupled large deformation and fluid flow in porous materials
New material point method contact algorithms for improved accuracy, large-deformation problems, and proper null-space filtering
An angular momentum conserving affine-particle-in-cell method
DEM-enriched contact approach for material point method
Taylor particle-in-cell transfer and kernel correction for material point method
Multiscale, multiphysics modeling of saturated granular materials in large deformation
The affine particle-in-cell method
A convected particle domain interpolation technique to extend applicability of the material point method for problems involving massive deformations
Second-order convected particle domain interpolation (CPDI2) with enrichment for weak discontinuities at material interfaces
Contact algorithms for the material point method in impact and penetration simulation
Analysis and reduction of quadrature errors in the material point method (MPM)
A finite deformation mortar contact formulation using a primal-dual active set strategy
A material point method for snow simulation
SPH elastic dynamics
Scalable three‐dimensional hybrid continuum‐discrete multiscale modeling of granular media
Improved SNS-PFEM framework with dual mortar method to model geotechnical large deformation contact problems
A semi-implicit material point method for coupled thermo-hydro-mechanical simulation of saturated porous media in large deformation
Stabilized mixed material point method for incompressible fluid flow analysis
An implicit material point method for micropolar solids undergoing large deformations
A hydro-mechanical coupled contact method for two-phase geotechnical large deformation problems within the SNS-PFEM framework
A hybrid material-point spheropolygon-element method for solid and granular material interaction
Imposition of essential boundary conditions in the material point method
Field-gradient partitioning for fracture and frictional contact in the material point method