AbstractMindlin’s (1965) second strain gradient theory due to its competency in capturing the effects of edges, corners, and surfaces is of particular interest. Formulation in this framework, in addition to the usual Lamé constants, requires the knowledge of sixteen additional materials constants. To date, there are no successful experimental techniques for measuring these material parameters which reflect the discrete nature of matter. The present work gives an accurate remedy for the atomistic calculations of these parameters by utilizing the first principles density functional theory (DFT) for the calculations of the atomic force constants combined with an analytical formulation. It will be shown that writing the consistency conditions o...
AbstractGradient theories, as a regularized continuum mechanics approach, have found wide applicatio...
AbstractWe present an expression developed for calculating an atomic-scale deformation gradient with...
International audienceThis paper derives an Euler-Bernoulli beam theory for isotropic elastic materi...
AbstractMindlin’s (1965) second strain gradient theory due to its competency in capturing the effect...
Surface/interface stresses, when notable, are closely associated with a surface/interface layer in w...
International audienceMindlin's second strain gradient continuum theory for isotropic linear elastic...
The fundamental equations for Form II of Mindlin's second strain gradient elasticity theory for isot...
Recent investigations into surface-energy density of nanomaterials lead to a ripe chance to propose,...
AbstractA multi-cell homogenization procedure with four geometrically different groups of cell eleme...
Recent investigations into surface-energy density of nanomaterials lead to a ripe chance to propose,...
Surfaces of solids behave differently from the bulk due to different atomic rearrangements and proce...
Strain-gradient elasticity is widely used as a suitable alternative to size-independent classical co...
AbstractIn the framework of strain gradient plasticity, a solid body with boundary surface playing t...
AbstractStrain has significance for both the growth characteristics and material properties of thin ...
We present a universal relation for crack surface cohesion including surface relaxation. Specificall...
AbstractGradient theories, as a regularized continuum mechanics approach, have found wide applicatio...
AbstractWe present an expression developed for calculating an atomic-scale deformation gradient with...
International audienceThis paper derives an Euler-Bernoulli beam theory for isotropic elastic materi...
AbstractMindlin’s (1965) second strain gradient theory due to its competency in capturing the effect...
Surface/interface stresses, when notable, are closely associated with a surface/interface layer in w...
International audienceMindlin's second strain gradient continuum theory for isotropic linear elastic...
The fundamental equations for Form II of Mindlin's second strain gradient elasticity theory for isot...
Recent investigations into surface-energy density of nanomaterials lead to a ripe chance to propose,...
AbstractA multi-cell homogenization procedure with four geometrically different groups of cell eleme...
Recent investigations into surface-energy density of nanomaterials lead to a ripe chance to propose,...
Surfaces of solids behave differently from the bulk due to different atomic rearrangements and proce...
Strain-gradient elasticity is widely used as a suitable alternative to size-independent classical co...
AbstractIn the framework of strain gradient plasticity, a solid body with boundary surface playing t...
AbstractStrain has significance for both the growth characteristics and material properties of thin ...
We present a universal relation for crack surface cohesion including surface relaxation. Specificall...
AbstractGradient theories, as a regularized continuum mechanics approach, have found wide applicatio...
AbstractWe present an expression developed for calculating an atomic-scale deformation gradient with...
International audienceThis paper derives an Euler-Bernoulli beam theory for isotropic elastic materi...