The nonlocal strain gradient elasticity theory is being widely used to address structural problems at the micro- and nano-scale, in which size effects cannot be disregarded. The application of this approach to bounded solids shows the necessity to fulfil boundary conditions, derived from an energy variational principle, to achieve equilibrium, as well as constitutive boundary conditions inherent to the formulation of the constitutive equation through convolution integrals. In this paper we uncover that, in general, is not possible to accomplish simultaneously the boundary conditions, which are all mandatory in the framework of the nonlocal strain gradient elasticity, and therefore, the problems formulated through this theory have no solutio...
A debated issue, in applications of ERINGEN's nonlocal model of elasticity to nanobeams, is the para...
Size-dependent bending behavior of Bernoulli-Euler nano-beams is investigated by elasticity integral...
AbstractA stress gradient elasticity theory is developed which is based on the Eringen method to add...
The nonlocal strain gradient elasticity theory is being widely used to address structural problems a...
This paper is concerned with the bending response of nonlocal elastic beams under transverse loads, ...
Zaera et al. (Int J Eng Sci 138:65-81, 2019) recently showed that the nonlocal strain gradient theor...
Numerous contributions can be found in the recent literature exploiting the nonlocal strain gradient...
Nonlocal strain gradient continuum mechanics is a methodology widely employed in the literature to a...
The equivalence between nonlocal and gradient elasticity models is investigated by making reference ...
In the strain-driven model of nonlocal elasticity proposed by ERINGEN, the elastic strain is defined...
The elastostatic problem of a Bernoulli-Euler functionally graded nanobeam is formulated by adopting...
A fully gradient elasticity model for bending of nanobeams is proposed by using a nonlocal thermodyn...
Size-dependent axial and flexural free vibrations of Bernoulli-Euler nano-beams are investigated by ...
A debated issue, in applications of ERINGEN's nonlocal model of elasticity to nanobeams, is the para...
Size-dependent bending behavior of Bernoulli-Euler nano-beams is investigated by elasticity integral...
AbstractA stress gradient elasticity theory is developed which is based on the Eringen method to add...
The nonlocal strain gradient elasticity theory is being widely used to address structural problems a...
This paper is concerned with the bending response of nonlocal elastic beams under transverse loads, ...
Zaera et al. (Int J Eng Sci 138:65-81, 2019) recently showed that the nonlocal strain gradient theor...
Numerous contributions can be found in the recent literature exploiting the nonlocal strain gradient...
Nonlocal strain gradient continuum mechanics is a methodology widely employed in the literature to a...
The equivalence between nonlocal and gradient elasticity models is investigated by making reference ...
In the strain-driven model of nonlocal elasticity proposed by ERINGEN, the elastic strain is defined...
The elastostatic problem of a Bernoulli-Euler functionally graded nanobeam is formulated by adopting...
A fully gradient elasticity model for bending of nanobeams is proposed by using a nonlocal thermodyn...
Size-dependent axial and flexural free vibrations of Bernoulli-Euler nano-beams are investigated by ...
A debated issue, in applications of ERINGEN's nonlocal model of elasticity to nanobeams, is the para...
Size-dependent bending behavior of Bernoulli-Euler nano-beams is investigated by elasticity integral...
AbstractA stress gradient elasticity theory is developed which is based on the Eringen method to add...