Improved SNS-PFEM framework with dual mortar method to model geotechnical large deformation contact problems
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Publication:6097652
DOI10.1016/j.cma.2023.116091MaRDI QIDQ6097652
Zhen-Yu Yin, Dingli Zhang, Maozhu Peng, Huangcheng Fang
Publication date: 6 June 2023
Published in: Computer Methods in Applied Mechanics and Engineering (Search for Journal in Brave)
large deformationdual Lagrange multipliergeotechnical engineeringstabilization termdynamic mesh adjustmentfinite sliding contact
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Cites Work
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- Modelling of tunnelling processes and rock cutting tool wear with the particle finite element method
- Simulation of the flow of fresh cement suspensions by a Lagrangian finite element approach
- Numerical simulation of a flow-like landslide using the particle finite element method
- Temporal stabilization of the node-based smoothed finite element method and solution bound of linear elastostatics and vibration problems
- A contact domain method for large deformation frictional contact problems. I: Theoretical basis
- A contact domain method for large deformation frictional contact problems. II: Numerical aspects
- A mortar-based frictional contact formulation for large deformations using Lagrange multipliers
- Some computational aspects for solving deep penetration problems in geomechanics
- Sliding interfaces with contact-impact in large-scale Lagrangian computations
- A finite element method for a class of contact-impact problems
- Mathematical programming and nonlinear finite element analysis
- Stability analysis of particle methods with corrected derivatives.
- A stable nodal integration method with strain gradient for static and dynamic analysis of solid mechanics
- A mesh-independent interface technology for simulation of mixed-mode delamination growth
- A semi-smooth Newton method for orthotropic plasticity and frictional contact at finite strains
- The mortar finite element method with Lagrange multipliers
- On Lagrangian mechanics and the implicit material point method for large deformation elasto-plasticity
- A novel node-based smoothed finite element method with linear strain fields for static, free and forced vibration analyses of solids
- An efficient patch-to-patch method for coupling independent finite element subdomains with intersecting interfaces
- A mortar segment-to-segment contact method for stabilized total-Lagrangian smoothed particle hydrodynamics
- A semi-smooth Newton and primal-dual active set method for non-smooth contact dynamics
- A stable node-based smoothed PFEM for solving geotechnical large deformation 2D problems
- Convergence analysis of penalty based numerical methods for constrained inequality problems
- Thermoelastic frictional contact problems: Modelling, finite element approximation and numerical realization
- A geometrically nonlinear FE approach for the simulation of strong and weak discontinuities
- A stable node-based smoothed finite element method for metal forming analysis
- Improved robustness and consistency of 3D contact algorithms based on a dual mortar approach
- The material point method in large strain engineering problems
- A primal--dual active set strategy for nonlinear multibody contact problems
- A mortar segment-to-segment frictional contact method for large deformations
- A novel alpha finite element method (\(\alpha \)FEM) for exact solution to mechanics problems using triangular and tetrahedral elements
- Advances in the particle finite element method for the analysis of fluid-multibody interaction and bed erosion in free surface flows
- Multiscale, multiphysics modeling of saturated granular materials in large deformation
- A new method for modelling cohesive cracks using finite elements
- Arbitrary Lagrangian-Eulerian method for large-strain consolidation problems
- Smoothed Particle Hydrodynamics and Its Diverse Applications
- An accelerated, convergent, and stable nodal integration in Galerkin meshfree methods for linear and nonlinear mechanics
- The particle finite element method (PFEM) in thermo-mechanical problems
- A dual mortar approach for 3D finite deformation contact with consistent linearization
- Finite deformation frictional mortar contact using a semi-smooth Newton method with consistent linearization
- Dual Quadratic Mortar Finite Element Methods for 3D Finite Deformation Contact
- Stress integration and mesh refinement for large deformation in geomechanics
- Crack face contact in X-FEM using a segment-to-segment approach
- A Primal-Dual Active Set Algorithm for Three-Dimensional Contact Problems with Coulomb Friction
- A Mortar Finite Element Method Using Dual Spaces for the Lagrange Multiplier
- Dual mortar methods for computational contact mechanics - overview and recent developments
- WEAK SOLUTIONS VIA TWO-FIELD LAGRANGE MULTIPLIERS FOR BOUNDARY VALUE PROBLEMS IN MATHEMATICAL PHYSICS
- Computational Contact Mechanics
- THE PARTICLE FINITE ELEMENT METHOD — AN OVERVIEW
- Partitioned formulation of internal fluid-structure interaction problems by localized Lagrange multipliers
- Scalable three‐dimensional hybrid continuum‐discrete multiscale modeling of granular media
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