© 2018 Nano-scale experimental findings reveal that wave propagation in heterogeneous materials is dispersive. In order to capture such dispersive behavior, in this paper gradient elasticity theory is resorted to. A popular gradient elasticity model arising from Mindlin\u27s theory incorporates two internal length scale parameters, which correspond to one micro-stiffness and one micro-inertia term. As an extension of Mindlin\u27s model, an expanded three-length-scale gradient elasticity formulation with one additional micro-inertia term is used to improve the description of microstructural effects in dynamics. A non-local lattice model is introduced here to give the above micro-stiffness and micro-inertia terms a physical interpretation bas...
Gradient elasticity theories can be used to simulate dispersive wave propagation as it occurs in het...
With the recent advances in material science and additive manufacturing, there has been an ever-grow...
Computational aspects of a recently developed gradient elasticity model are discussed in this paper....
Nano-scale experimental findings reveal that wave propagation in heterogeneous materials is dispersi...
© 2018 Walter de Gruyter GmbH, Berlin/Boston. Long-range interactions occurring in heterogeneous mat...
The phenomenon of wave propagation through concrete materials is affected by dispersion due to its i...
AbstractThe goal of this study is to understand the physical meaning and evaluate the intrinsic leng...
AbstractAnalytical wave propagation studies in gradient elastic solids and structures are presented....
International audienceIn its original formulation by Forest & Sab (Math. Mech. Solids, 2017), stress...
International audienceWave propagation in architectured materials, or materials with microstructure,...
An asymptotic homogenization model considering wave dispersion in composites is investigated. In thi...
Wave dispersion is a widely recognised phenomenon that occurs when elastic waves propagate through a...
AbstractA Mindlin continuum model that incorporates both a dependence upon the microstructure and in...
ABSTRACT: Continuum material models can be enriched with additional gradients in order to model phen...
International audienceWe analyze the dispersion of elastic waves in periodic beam networks based on ...
Gradient elasticity theories can be used to simulate dispersive wave propagation as it occurs in het...
With the recent advances in material science and additive manufacturing, there has been an ever-grow...
Computational aspects of a recently developed gradient elasticity model are discussed in this paper....
Nano-scale experimental findings reveal that wave propagation in heterogeneous materials is dispersi...
© 2018 Walter de Gruyter GmbH, Berlin/Boston. Long-range interactions occurring in heterogeneous mat...
The phenomenon of wave propagation through concrete materials is affected by dispersion due to its i...
AbstractThe goal of this study is to understand the physical meaning and evaluate the intrinsic leng...
AbstractAnalytical wave propagation studies in gradient elastic solids and structures are presented....
International audienceIn its original formulation by Forest & Sab (Math. Mech. Solids, 2017), stress...
International audienceWave propagation in architectured materials, or materials with microstructure,...
An asymptotic homogenization model considering wave dispersion in composites is investigated. In thi...
Wave dispersion is a widely recognised phenomenon that occurs when elastic waves propagate through a...
AbstractA Mindlin continuum model that incorporates both a dependence upon the microstructure and in...
ABSTRACT: Continuum material models can be enriched with additional gradients in order to model phen...
International audienceWe analyze the dispersion of elastic waves in periodic beam networks based on ...
Gradient elasticity theories can be used to simulate dispersive wave propagation as it occurs in het...
With the recent advances in material science and additive manufacturing, there has been an ever-grow...
Computational aspects of a recently developed gradient elasticity model are discussed in this paper....