The manuscript reports the outcome of investigations on the phononic properties of a chiral cellular structure. The considered geometry features in-plane hexagonal symmetry, whereby circular nodes are connected through six ligaments tangent to the nodes themselves. in-plane wave propagation is analyzed through the application of Bloch theorem, which is employed to predict two-dimensional dispersion relations as well as illustrate dispersion properties unique to the considered chiral configuration, Attention is devoted to determining the influence of unit cell geometry on dispersion, band gap occurrence and wave directionality. Results suggest cellular lattices as potential building blocks for the design of meta-materials of interest for aco...
British council - Kiev under the Academic Partnership/Mobility Grant scheme grant No. UKR16EG/3/19.0...
A simplified model of periodic chiral beam-lattices containing local resonators has been formulated ...
International audiencePlane wave propagation in infinite two-dimensional periodic lattices is invest...
Plane wave propagation in a chiral lattice is investigated through the application of Bloch's theore...
In-plane wave propagation in hexagonal and re-entrant lattices is a widely investigated subject in t...
Low-density cellular solids have demonstrated superior mechanical properties as well as multifunctio...
Phononic crystals and acoustic metamaterials are heterogeneous materials that enable manipulation of...
Guiding phononic waves with low loss is attractive from both scientific and technological points of ...
International audienceThe objective of this invited paper is to present a review of the domain of ph...
This paper describes a numerical and experimental investigation on the flexural wave propagation pro...
The paper presents a systematic study of dispersive waves in an elastic chiral lattice. Chirality is...
A parametric beam lattice model is formulated to analyse the propagation properties of elastic in-pl...
This paper addresses fundamental questions arising in the theory of Bloch-Floquet waves in chiral el...
A new class of auxetic cellular solids has been recently developed for enhanced mechanical performan...
AbstractThe paper presents a systematic study of dispersive waves in an elastic chiral lattice. Chir...
British council - Kiev under the Academic Partnership/Mobility Grant scheme grant No. UKR16EG/3/19.0...
A simplified model of periodic chiral beam-lattices containing local resonators has been formulated ...
International audiencePlane wave propagation in infinite two-dimensional periodic lattices is invest...
Plane wave propagation in a chiral lattice is investigated through the application of Bloch's theore...
In-plane wave propagation in hexagonal and re-entrant lattices is a widely investigated subject in t...
Low-density cellular solids have demonstrated superior mechanical properties as well as multifunctio...
Phononic crystals and acoustic metamaterials are heterogeneous materials that enable manipulation of...
Guiding phononic waves with low loss is attractive from both scientific and technological points of ...
International audienceThe objective of this invited paper is to present a review of the domain of ph...
This paper describes a numerical and experimental investigation on the flexural wave propagation pro...
The paper presents a systematic study of dispersive waves in an elastic chiral lattice. Chirality is...
A parametric beam lattice model is formulated to analyse the propagation properties of elastic in-pl...
This paper addresses fundamental questions arising in the theory of Bloch-Floquet waves in chiral el...
A new class of auxetic cellular solids has been recently developed for enhanced mechanical performan...
AbstractThe paper presents a systematic study of dispersive waves in an elastic chiral lattice. Chir...
British council - Kiev under the Academic Partnership/Mobility Grant scheme grant No. UKR16EG/3/19.0...
A simplified model of periodic chiral beam-lattices containing local resonators has been formulated ...
International audiencePlane wave propagation in infinite two-dimensional periodic lattices is invest...