In this paper the generalisation of previous author's formulation of fractional continuum mechanics to the case of anisotropic non-locality is presented. The considerations include the review of competitive formulations available in literature. The overall concept bases on the fractional deformation gradient which is non-local, as a consequence of fractional derivative definition. The main advantage of the proposed formulation is its analogical structure to the general framework of classical continuum mechanics. In this sense, it allows, to give similar physical and geometrical meaning of introduced objects
If the attenuation function of strain is expressed as a power law, the formalism of fractional calc...
Abstract:- Mechanical vibrations of non-local systems with long-range, cohesive, interactions betwee...
One of the main research fields in past years concerns the modeling of heterogeneous materials. For ...
In this paper, a generalisation of previous author’s formulation of fractional continuum mechanics f...
Several enriched continuum mechanics theories have been proposed by the scientific community in orde...
In the paper the generalisation of classical rate independent plasticity using fractional calculus i...
The rapid growth of fields such as metamaterials, composites, architected materials, porous solids, ...
AbstractA non-local continuum model including long-range forces between non-adjacent volume elements...
This paper aims to formulate the three-dimensional (3D) problem of non-local elasticity in terms of ...
In this paper we present a theoretical analysis of free axial vibrations of rods described in terms ...
In this chapter, fractional calculus has been used to account for long-range interactions between ma...
In this paper, mechanics of continuum with general form of nonlocality in space and time is consider...
In this paper, we consider extensions of the gradient elasticity models proposed earlier by the seco...
A non-local continuum model including long-range forces between non-adjacent volume elements has bee...
Since modern continuum mechanics is mainly characterized by the strong influence of microstructure, ...
If the attenuation function of strain is expressed as a power law, the formalism of fractional calc...
Abstract:- Mechanical vibrations of non-local systems with long-range, cohesive, interactions betwee...
One of the main research fields in past years concerns the modeling of heterogeneous materials. For ...
In this paper, a generalisation of previous author’s formulation of fractional continuum mechanics f...
Several enriched continuum mechanics theories have been proposed by the scientific community in orde...
In the paper the generalisation of classical rate independent plasticity using fractional calculus i...
The rapid growth of fields such as metamaterials, composites, architected materials, porous solids, ...
AbstractA non-local continuum model including long-range forces between non-adjacent volume elements...
This paper aims to formulate the three-dimensional (3D) problem of non-local elasticity in terms of ...
In this paper we present a theoretical analysis of free axial vibrations of rods described in terms ...
In this chapter, fractional calculus has been used to account for long-range interactions between ma...
In this paper, mechanics of continuum with general form of nonlocality in space and time is consider...
In this paper, we consider extensions of the gradient elasticity models proposed earlier by the seco...
A non-local continuum model including long-range forces between non-adjacent volume elements has bee...
Since modern continuum mechanics is mainly characterized by the strong influence of microstructure, ...
If the attenuation function of strain is expressed as a power law, the formalism of fractional calc...
Abstract:- Mechanical vibrations of non-local systems with long-range, cohesive, interactions betwee...
One of the main research fields in past years concerns the modeling of heterogeneous materials. For ...