We apply the framework of tempered fractional calculus to investigate the spatial dispersion of elastic waves in a one-dimensional elastic bar characterized by range-dependent nonlocal interactions. The measure of the interaction is given by the attenuation kernel present in the constitutive stress-strain relation of the bar, which follows from the Kröner-Eringen’s model of nonlocal elasticity. We employ a fractional power-law attenuation kernel and spatially temper it, to make the model physically valid and mathematically consistent. The spatial dispersion relation is derived, but it turns out to be difficult to solve, both analytically and numerically. Consequently, we use numerical techniques to extract the real and imaginary parts of th...
The paper is addressed to the analysis of low-frequency wave propagation in materials with periodic...
This paper develops new fractional calculus models for wave propagation. These models permit a diffe...
The research of a formulation to model non-local interactions in the mechanical behavior of matter i...
Aim of this paper is the study of waves propagation in a fractional, non-local 1D elastic continuum....
International audienceNonlocal continuum mechanics allows one to account for the small length scale ...
The article deals with the longitudinal waves in a nonlocal elastic rod. Regarding the nonlocal elas...
In this paper wave propagation in non-local elastic solids is examined in the framework of the mecha...
Whenever a long rod or beam is dynamically loaded, the resulting disturbance travels from one end of...
AbstractIn an effort to understand and quantify the effect of non-local elasticity on the wave propa...
The longitudinal waves in thermoelastic bars are investigated in the context of nonlocal theory. Usi...
Abstract. This paper investigates Rayleigh waves, propagating on the surface of a visco-elastic soli...
To overcome the long wavelength and time limits of classical elastic theory, this paper presents a f...
A non-local continuum model including long-range forces between non-adjacent volume elements has bee...
Wave motion lies at the heart of many disciplines in the physical sciences and engineering. For exam...
AbstractA non-local continuum model including long-range forces between non-adjacent volume elements...
The paper is addressed to the analysis of low-frequency wave propagation in materials with periodic...
This paper develops new fractional calculus models for wave propagation. These models permit a diffe...
The research of a formulation to model non-local interactions in the mechanical behavior of matter i...
Aim of this paper is the study of waves propagation in a fractional, non-local 1D elastic continuum....
International audienceNonlocal continuum mechanics allows one to account for the small length scale ...
The article deals with the longitudinal waves in a nonlocal elastic rod. Regarding the nonlocal elas...
In this paper wave propagation in non-local elastic solids is examined in the framework of the mecha...
Whenever a long rod or beam is dynamically loaded, the resulting disturbance travels from one end of...
AbstractIn an effort to understand and quantify the effect of non-local elasticity on the wave propa...
The longitudinal waves in thermoelastic bars are investigated in the context of nonlocal theory. Usi...
Abstract. This paper investigates Rayleigh waves, propagating on the surface of a visco-elastic soli...
To overcome the long wavelength and time limits of classical elastic theory, this paper presents a f...
A non-local continuum model including long-range forces between non-adjacent volume elements has bee...
Wave motion lies at the heart of many disciplines in the physical sciences and engineering. For exam...
AbstractA non-local continuum model including long-range forces between non-adjacent volume elements...
The paper is addressed to the analysis of low-frequency wave propagation in materials with periodic...
This paper develops new fractional calculus models for wave propagation. These models permit a diffe...
The research of a formulation to model non-local interactions in the mechanical behavior of matter i...