Coupling of nonlocal and local continuum models by the Arlequin approach

Coupled local/nonlocal models in thin domains ⋮ Blended isogeometric-finite element analysis for large displacements linear elastic fracture mechanics ⋮ Imposition of local boundary conditions in peridynamics without a fictitious layer and unphysical stress concentrations ⋮ Local and Nonlocal Energy-Based Coupling Models ⋮ A Quasi-nonlocal Coupling Method for Nonlocal and Local Diffusion Models ⋮ A hybrid meshfree discretization to improve the numerical performance of peridynamic models ⋮ An asymptotically compatible formulation for local-to-nonlocal coupling problems without overlapping regions ⋮ A morphing approach to couple state-based peridynamics with classical continuum mechanics ⋮ Concurrent multiscale analysis of anti-seepage structures in embankment dam based on the nonlinear Arlequin method ⋮ Coupled peridynamic model for geometrically nonlinear deformation and fracture analysis of slender beam structures ⋮ Coupling approach of isogeometric analysis with non-ordinary state-based peridynamics ⋮ Coupling of an atomistic model and bond-based peridynamic model using an extended Arlequin framework ⋮ An improved coupling of 3D state‐based peridynamics with high‐order 1D finite elements to reduce spurious effects at interfaces ⋮ A domain decomposition scheme for couplings between local and nonlocal equations ⋮ A finite addition of matter elements method for modeling and solution of an SLM thermal problem by a multiscale method ⋮ Coupling local and nonlocal equations with Neumann boundary conditions ⋮ Element‐based coupling modeling of peridynamics and classical continuum mechanics for dynamic brittle fracture ⋮ An optimization-based strategy for peridynamic-FEM coupling and for the prescription of nonlocal boundary conditions ⋮ Adaptive coupling of non-ordinary state-based peridynamics and classical continuum mechanics for fracture analysis ⋮ Quasi-nonlocal Coupling of Nonlocal Diffusions ⋮ Interface problems in nonlocal diffusion and sharp transitions between local and nonlocal domains ⋮ Construction of peridynamic beam and shell models on the basis of the micro-beam bond obtained via interpolation method ⋮ Study of three-dimensional Euler-Bernoulli beam structures using element-based peridynamic model ⋮ The morphing method as a flexible tool for adaptive local/non-local simulation of static fracture ⋮ A multiscale overlapped coupling formulation for large-deformation strain localization ⋮ Overall equilibrium in the coupling of peridynamics and classical continuum mechanics ⋮ A partitioned coupling framework for peridynamics and classical theory: analysis and simulations ⋮ Concurrent coupling of peridynamics and classical elasticity for elastodynamic problems ⋮ Superposition-based coupling of peridynamics and finite element method ⋮ A coupling strategy for nonlocal and local diffusion models with mixed volume constraints and boundary conditions ⋮ Abaqus implementation of dual peridynamics for brittle fracture ⋮ Strength-induced peridynamic modeling and simulation of fractures in brittle materials ⋮ Modeling of peridynamic beams and shells with transverse shear effect via interpolation method ⋮ Isogeometric analysis of cracks with peridynamics ⋮ A dynamic hybrid local/nonlocal continuum model for wave propagation ⋮ Formulation, analysis and computation of an optimization-based local-to-nonlocal coupling method ⋮ A Multiscale Implementation Based on Adaptive Mesh Refinement for the Nonlocal Peridynamics Model in One Dimension ⋮ The Schwarz alternating method in solid mechanics ⋮ Coupling of FEM meshes with peridynamic grids ⋮ Splitting methods and numerical approximations for a coupled local/nonlocal diffusion model ⋮ Peridynamics boundary condition treatments via the pseudo-layer enrichment method and variable horizon approach ⋮ An extended fictitious node method for surface effect correction of bond-based peridynamics ⋮ A local/nonlocal diffusion model

• On the use of XFEM within the Arlequin framework for the simulation of crack propagation
• An adaptive strategy for the control of modeling error in two-dimensional atomic-to-continuum coupling simulations
• Adaptive multiscale modeling of polymeric materials with Arlequin coupling and goals algorithms
• On the application of the Arlequin method to the coupling of particle and continuum models
• Mechanically-based approach to non-local elasticity: variational principles
• Physically-based approach to the mechanics of Strong non-local linear elasticity theory
• Edge dislocation in nonlocal elasticity
• Crack-tip problem in non-local elasticity
• The mechanically-based approach to 3D non-local linear elasticity theory: long-range central interactions
• Reformulation of elasticity theory for discontinuities and long-range forces
• Ghost forces and spurious effects in atomic‐to‐continuum coupling methods by the Arlequin approach
• On theL2 and theH1 couplings for an overlapping domain decomposition method using Lagrange multipliers
• Bridging domain methods for coupled atomistic-continuum models with L ² or H ¹ couplings
• Problèmes mécaniques multi-échelles: la méthode Arlequin
• The Art of Molecular Dynamics Simulation
• The Arlequin method as a flexible engineering design tool
• Nonlocal elasticity and related variational principles