Add to ORKGThe engineered class of periodic anti-tetrachiral materials is mainly characterized by the unusual macroscopic property of a negative Poisson’s ratio. The auxetic behavior of the material depends on the geometric and elastic features of the microstructure. In particular, the material symmetries of the periodic cell govern the quadratic or orthotropic symmetry of the first-order elastic tensor (i.e. auxetic quadratic or auxetic orthotropy). Under the assumption of uniform mass density and elastic properties, one or the other case can be realized by a square or rectangular microstructure, respectively. A beam lattice model with lumped masses is employed to analyse the effects of different, usually small-valued, geometric and elastic pa...
Tetrachiral materials are characterized by a cellular microstructure made by a periodic pattern of s...
A simplified model of periodic chiral beam-lattices containing local resonators has been formulated ...
This paper describes a numerical and experimental investigation on the flexural wave propagation pro...
Periodic anti-tetrachiral materials are strongly characterized by a marked auxeticity, the unusual a...
The free propagation of elastic waves through periodic microstructured materials can be studied by ...
The free propagation of elastic waves through periodic microstructured materials can be studied by t...
The class of anti-tetrachiral cellular materials is phenomenologically characterized by a strong aux...
The periodic cellular topology characterizing the microscale structure of a heterogeneous material m...
A comprehensive characterization of the novel class of anti-tetrachiral cellular solids, both consid...
The elastic wave propagation is investigated in a beam lattice material characterized by a square pe...
A comprehensive characterization of the novel class of anti-tetrachiral cellular solids, both consid...
Lattice materials are generated by tessellating a unit cell, composed of a specific truss configurat...
The free propagation of acoustic plane waves through cellular periodic materials is generally accomp...
A parametric beam lattice model is formulated to analyse the propagation properties of elastic in-pl...
e possibility of obtaining band gap structures in chiral auxetic lattices is here considered and app...
Tetrachiral materials are characterized by a cellular microstructure made by a periodic pattern of s...
A simplified model of periodic chiral beam-lattices containing local resonators has been formulated ...
This paper describes a numerical and experimental investigation on the flexural wave propagation pro...
Periodic anti-tetrachiral materials are strongly characterized by a marked auxeticity, the unusual a...
The free propagation of elastic waves through periodic microstructured materials can be studied by ...
The free propagation of elastic waves through periodic microstructured materials can be studied by t...
The class of anti-tetrachiral cellular materials is phenomenologically characterized by a strong aux...
The periodic cellular topology characterizing the microscale structure of a heterogeneous material m...
A comprehensive characterization of the novel class of anti-tetrachiral cellular solids, both consid...
The elastic wave propagation is investigated in a beam lattice material characterized by a square pe...
A comprehensive characterization of the novel class of anti-tetrachiral cellular solids, both consid...
Lattice materials are generated by tessellating a unit cell, composed of a specific truss configurat...
The free propagation of acoustic plane waves through cellular periodic materials is generally accomp...
A parametric beam lattice model is formulated to analyse the propagation properties of elastic in-pl...
e possibility of obtaining band gap structures in chiral auxetic lattices is here considered and app...
Tetrachiral materials are characterized by a cellular microstructure made by a periodic pattern of s...
A simplified model of periodic chiral beam-lattices containing local resonators has been formulated ...
This paper describes a numerical and experimental investigation on the flexural wave propagation pro...