In this work, material symmetries in homogenized composites are analyzed. Composite materials are described as materials made of rigid particles and elastic interfaces. Rigid particles of arbitrary hexagonal shape are considered and their geometry described by a limited set of parameters. The purpose of this study is to analyze different geometrical configurations of the assemblies corresponding to various material symmetries such as orthotetragonal, auxetic and chiral. The problem is investigated through a homogenization technique which is able to carry out constitutive parameters using a principle of energetic equivalence. The constitutive law of the homogenized continuum has been derived within the framework of Cosserat elasticity, where...
Abstract Several composite materials used in engineering – such as ceramic/metal matrix composites, ...
International audienceIn this work, the derivation of the effective properties for heterogeneous mic...
Homogenization is an important analysis approach of composite materials with structural hierarchy an...
In this work, material symmetries in homogenized composites are analyzed. Composite materials are de...
In this work, particle composite materials with different kind of microstructures are analyzed. Such...
This work discusses the advantages of micropolar theory in modeling anisotropic composite materials ...
Particle composites include materials like ceramic, metal composites, poly-crystals, and masonry. Du...
Materials endowed with microstructure, such as particle composites, show a peculiar mechanical behav...
Materials such as ceramic and metal composites, poly-crystals, masonry, porous rocks are examples of...
Composite materials are utilized in a several engineering fields, they can be studied by modelling ...
This work discusses the advantages of micropolar theory in modeling anisotropic composite materials ...
This work aims to present the dynamic character of microstructured materials made of hexagonal-shape...
The present paper deals with the homogenization problem of periodic composite materials, considering...
It has been demonstrated that materials with microstructure, such as particle composites, show a pec...
Abstract Several composite materials used in engineering – such as ceramic/metal matrix composites, ...
International audienceIn this work, the derivation of the effective properties for heterogeneous mic...
Homogenization is an important analysis approach of composite materials with structural hierarchy an...
In this work, material symmetries in homogenized composites are analyzed. Composite materials are de...
In this work, particle composite materials with different kind of microstructures are analyzed. Such...
This work discusses the advantages of micropolar theory in modeling anisotropic composite materials ...
Particle composites include materials like ceramic, metal composites, poly-crystals, and masonry. Du...
Materials endowed with microstructure, such as particle composites, show a peculiar mechanical behav...
Materials such as ceramic and metal composites, poly-crystals, masonry, porous rocks are examples of...
Composite materials are utilized in a several engineering fields, they can be studied by modelling ...
This work discusses the advantages of micropolar theory in modeling anisotropic composite materials ...
This work aims to present the dynamic character of microstructured materials made of hexagonal-shape...
The present paper deals with the homogenization problem of periodic composite materials, considering...
It has been demonstrated that materials with microstructure, such as particle composites, show a pec...
Abstract Several composite materials used in engineering – such as ceramic/metal matrix composites, ...
International audienceIn this work, the derivation of the effective properties for heterogeneous mic...
Homogenization is an important analysis approach of composite materials with structural hierarchy an...