Multiscale plasticity modeling: Coupled atomistics and discrete dislocation mechanics

Numerical homogenization of elastic and thermal material properties for metal matrix composites (MMC), Adaptive generalized mathematical homogenization framework for nanostructured materials, A multiscale finite element method for the dynamic analysis of surface‐dominated nanomaterials, Multiple time scale method for atomistic simulations, A Computational and Theoretical Investigation of the Accuracy of Quasicontinuum Methods, Domain reduction method for atomistic simulations, A multiscale modeling technique for bridging molecular dynamics with finite element method, Heat flux expressions that satisfy the conservation laws in atomistic system involving multibody potentials, Coarse-grained atomistic simulation of dislocations, Multiresolution molecular mechanics: a unified and consistent framework for general finite element shape functions, A concurrent multiscale study of dynamic fracture, Existence and stability of a screw dislocation under anti-plane deformation, Multiscale coupling using a finite element framework at finite temperature, Adaptive atomistic-to-continuum modeling of propagating defects, Bridging scale simulation of lattice fracture using enriched space-time Finite Element Method, Efficient lattice Green's function method for bounded domain problems, A multiscale method for dislocation nucleation and seamlessly passing scale boundaries, A concurrent multiscale method based on the alternating Schwarz scheme for coupling atomic and continuum scales with first-order compatibility, Multiscale crystal defect dynamics: a coarse-grained lattice defect model based on crystal microstructure, Investigating shock wave propagation, evolution, and anisotropy using a moving window concurrent atomistic-continuum framework, Investigating the deformation of nanocrystalline copper with microscale kinematic metrics and molecular dynamics, Multiresolution molecular mechanics: convergence and error structure analysis, A perspective on trends in multiscale plasticity, Multiresolution molecular mechanics: statics, An Arlequin-based method to couple molecular dynamics and finite element simulations of amorphous polymers and nanocomposites, Concurrently coupled atomistic and XFEM models for dislocations and cracks, Coarse-grained modeling with hierarchical deformable and rigid assemblages (HiDRA), An adaptive concurrent multiscale method for the dynamic simulation of dislocations, Lattice Green function methods for atomistic/continuum coupling: theory and data-sparse implementation, Analysis of a Sinclair-Type Domain Decomposition Solver for Atomistic/Continuum Coupling, Accelerated Molecular Statics Based on Atomic Inertia Effect, Toward predictive multiscale modeling of vascular tumor growth, computational and experimental oncology for tumor prediction, A simple dynamical scale-coupling method for concurrent simulation of hybridized atomistic/coarse-grained-particle system, Thermomechanical continuum representation of atomistic deformation at arbitrary size scales, A stress-gradient based criterion for dislocation nucleation in crystals, Three-dimensional bridging scale analysis of dynamic fracture, A unified interpretation of stress in molecular systems, A heterogeneous multiscale modeling framework for hierarchical systems of partial differential equations, Multi-scale plasticity modeling: coupled discrete dislocation and continuum crystal plasticity, Modelling transient heat conduction in solids at multiple length and time scales: a coupled non-equilibrium molecular dynamics/continuum approach, Bridging domain methods for coupled atomistic-continuum models with L ² or H ¹ couplings, Modelling Transient Heat Conduction at Multiple Length and Time Scales: A Coupled Non-Equilibrium Molecular Dynamics/Continuum Approach, A surface Cauchy-Born model for silicon nanostructures, A finite element formulation for nanoscale resonant mass sensing using the surface Cauchy-Born model, A multiscale, finite deformation formulation for surface stress effects on the coupled thermomechanical behavior of nanomaterials, Traction boundary conditions for molecular static simulations, Coupling atomistic and continuum modelling of magnetism, Adaptive multiscale predictive modelling, Concurrent AtC coupling based on a blend of the continuum stress and the atomistic force, A coupled atomistic/continuum model of defects in solids.

• Unnamed Item
• On plastic deformation and the dynamics of 3D dislocations
• A coupled atomistic/continuum model of defects in solids.