Strain-gradient elasticity is widely used as a suitable alternative to size-independent classical continuum elasticity to, at least partially, capture elastic size effects at the nanoscale. In this work, borrowing methods from statistical mechanics, we present mathematical derivations that relate the strain-gradient material constants to atomic displacement correlations in a molecular dynamics computational ensemble. Using the developed relations and numerical atomistic calculations, the strain-gradient constants are explicitly determined for some representative semiconductor, metallic, amorphous and polymeric materials. This method has the distinct advantage that amorphous materials can be tackled in a straightforward manner. For crystalli...
This chapter focuses on the foundation and development of various higher-order strain gradient plast...
Experiments have shown that a gradient design, in which grain size spans over four orders of magnitu...
The modeling of the elastic properties of disordered or nanoscale solids requires the foundations o...
Strain gradient effect of micro- and nanoscale structures in plasticity is well known. Elastic strai...
Many unexpected applications were found due to superior thermochemomechanical and optoelectromagnet...
Strain is a crucial measure of materials deformation for evaluating and predicting the mechanical re...
Abstract. Stress and deformation analysis of materials and devices at the nanoscale level are topics...
Our paper is concerned with the manifestation of strain gradients(SG) in the vibration of nanostruct...
In the present investigation we elaborate on the development of a second-order elastic deformation g...
International audienceMindlin's second strain gradient continuum theory for isotropic linear elastic...
Classical effective descriptions of heterogeneous materials fail to capture the influence of the spa...
Structural materials display strong size dependence when deformed non uniformly into the in-elastic ...
Nanoindentations on polymeric viscoelastic materials indicated plastic deformation is size dependent...
Fluctuations of the instantaneous local Lagrangian strain εij(r,t), measured with respect to a stati...
Classical effective descriptions of heterogeneous materials fail to capture the influ-ence of the sp...
This chapter focuses on the foundation and development of various higher-order strain gradient plast...
Experiments have shown that a gradient design, in which grain size spans over four orders of magnitu...
The modeling of the elastic properties of disordered or nanoscale solids requires the foundations o...
Strain gradient effect of micro- and nanoscale structures in plasticity is well known. Elastic strai...
Many unexpected applications were found due to superior thermochemomechanical and optoelectromagnet...
Strain is a crucial measure of materials deformation for evaluating and predicting the mechanical re...
Abstract. Stress and deformation analysis of materials and devices at the nanoscale level are topics...
Our paper is concerned with the manifestation of strain gradients(SG) in the vibration of nanostruct...
In the present investigation we elaborate on the development of a second-order elastic deformation g...
International audienceMindlin's second strain gradient continuum theory for isotropic linear elastic...
Classical effective descriptions of heterogeneous materials fail to capture the influence of the spa...
Structural materials display strong size dependence when deformed non uniformly into the in-elastic ...
Nanoindentations on polymeric viscoelastic materials indicated plastic deformation is size dependent...
Fluctuations of the instantaneous local Lagrangian strain εij(r,t), measured with respect to a stati...
Classical effective descriptions of heterogeneous materials fail to capture the influ-ence of the sp...
This chapter focuses on the foundation and development of various higher-order strain gradient plast...
Experiments have shown that a gradient design, in which grain size spans over four orders of magnitu...
The modeling of the elastic properties of disordered or nanoscale solids requires the foundations o...