Many aspects of materials deformation and failure are controlled by atomic-scale phenomena that can be explored using molecular statics and molecular dynamics simulations. However, many of these phenomena involve processes on multiple length scales with the result that full molecular statics/molecular dynamics simulations of the entire system are too large to be tractable. In this review, we discuss hybrid models that perform molecular statics/molecular dynamics simulations "without all the atoms," aimed at retaining atomistic detail at a fraction of the computational cost. These methods couple a fully atomistic model in critical regions to regions described by less-expensive continuum methods where they can provide an adequate representati...
Computational schemes for coarse-graining atomistic models of solids, by concurrent coupling of atom...
Computational methods for the calculation of dynamical properties of fluids might consider the syste...
The rapid evolution of nanotechnology appeals for the understanding of global response of nanoscale ...
The present work on the molecular dynamics method covers the theoretical background of the method an...
This report describes an Engineering Sciences Research Foundation (ESRF) project to characterize and...
A robust and efficient method for hybrid atomistic-continuum modeling and simulation of material sys...
Simulations based on molecular dynamics (MD) provide insight into processes occuring on atomic-scale...
Abstract. Multiscale materials modeling has emerged as a significant concept as well as a unique app...
We present a coupled atomistic-continuum method for the modeling of defects and interface dynamics i...
Abstract A numerical method that combines molecular dynamics simulation and finite element analysis ...
Restricted until 25 Jan. 2012.The main objective of the dissertation is to develop multi-scale algor...
Abstract The atomistic simulation of many processes in materials involves large size model systems w...
On cutting tools for high performance cutting (HPC) processes or for hard-to-cut materials an increa...
Classical continuum mechanics faces substantial difficulties for adequately describe stress and stra...
Atomistic simulation technique such as first-principles, molecular dynamics and Monte Carlo methods ...
Computational schemes for coarse-graining atomistic models of solids, by concurrent coupling of atom...
Computational methods for the calculation of dynamical properties of fluids might consider the syste...
The rapid evolution of nanotechnology appeals for the understanding of global response of nanoscale ...
The present work on the molecular dynamics method covers the theoretical background of the method an...
This report describes an Engineering Sciences Research Foundation (ESRF) project to characterize and...
A robust and efficient method for hybrid atomistic-continuum modeling and simulation of material sys...
Simulations based on molecular dynamics (MD) provide insight into processes occuring on atomic-scale...
Abstract. Multiscale materials modeling has emerged as a significant concept as well as a unique app...
We present a coupled atomistic-continuum method for the modeling of defects and interface dynamics i...
Abstract A numerical method that combines molecular dynamics simulation and finite element analysis ...
Restricted until 25 Jan. 2012.The main objective of the dissertation is to develop multi-scale algor...
Abstract The atomistic simulation of many processes in materials involves large size model systems w...
On cutting tools for high performance cutting (HPC) processes or for hard-to-cut materials an increa...
Classical continuum mechanics faces substantial difficulties for adequately describe stress and stra...
Atomistic simulation technique such as first-principles, molecular dynamics and Monte Carlo methods ...
Computational schemes for coarse-graining atomistic models of solids, by concurrent coupling of atom...
Computational methods for the calculation of dynamical properties of fluids might consider the syste...
The rapid evolution of nanotechnology appeals for the understanding of global response of nanoscale ...
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