Add to ORKGA molecular dynamics approach to the deformation and stress analysis in structured materials is presented. A new deformation measure for a lumped mass system of points is proposed. In full consistency with the continuum mechanical description, three kinds of stress tensors for the discrete system of atoms are defined. A computer simulation for a set of 105 atoms forming a sheet undergoing tension (Case 1) and contraction (Case 2) is given. Characteristic microstress distributions evoked by a crack propagation illustrate the mechanical problem considered
This paper develops an approach to model the deformation and fracture of heterogeneous materials at ...
. These authors contributed equally to this work. Many biomolecules have machine-like functions, and...
We present methods that use results from molecular dynamics (MD) simulations to construct continuum ...
Abstract. Stress and deformation analysis of materials and devices at the nanoscale level are topics...
The performance of materials depends on their properties, which in turn depend on the atomic structu...
Classical molecular dynamics has been applied to investigations into elastic-plastic properties of s...
Abstract. Multiscale materials modeling has emerged as a significant concept as well as a unique app...
Classical continuum mechanics faces substantial difficulties for adequately describe stress and stra...
This paper is concerned with stress and strain fields at atomic scale. Unlike other formulations of ...
This chapter examines different aspects of nanomechanics of defects in solids. The methods by which ...
This chapter examines different aspects of nanomechanics of defects in solids. The methods by which ...
This work deals with molecular dynamics modeling of processes in condensed matter on atomic level. T...
The stress and strain in very thin film under uniaxial tension are analyzed through the motion of pa...
In this paper, a continuum-atomistic multi-scale method is presented in modeling the nonlinear behav...
Stress and strain in the structure of self-assembled quantum dots constructed in the Ge/Si(001) syst...
This paper develops an approach to model the deformation and fracture of heterogeneous materials at ...
. These authors contributed equally to this work. Many biomolecules have machine-like functions, and...
We present methods that use results from molecular dynamics (MD) simulations to construct continuum ...
Abstract. Stress and deformation analysis of materials and devices at the nanoscale level are topics...
The performance of materials depends on their properties, which in turn depend on the atomic structu...
Classical molecular dynamics has been applied to investigations into elastic-plastic properties of s...
Abstract. Multiscale materials modeling has emerged as a significant concept as well as a unique app...
Classical continuum mechanics faces substantial difficulties for adequately describe stress and stra...
This paper is concerned with stress and strain fields at atomic scale. Unlike other formulations of ...
This chapter examines different aspects of nanomechanics of defects in solids. The methods by which ...
This chapter examines different aspects of nanomechanics of defects in solids. The methods by which ...
This work deals with molecular dynamics modeling of processes in condensed matter on atomic level. T...
The stress and strain in very thin film under uniaxial tension are analyzed through the motion of pa...
In this paper, a continuum-atomistic multi-scale method is presented in modeling the nonlinear behav...
Stress and strain in the structure of self-assembled quantum dots constructed in the Ge/Si(001) syst...
This paper develops an approach to model the deformation and fracture of heterogeneous materials at ...
. These authors contributed equally to this work. Many biomolecules have machine-like functions, and...
We present methods that use results from molecular dynamics (MD) simulations to construct continuum ...