A generalized strain energy-based homogenization method for 2-D and 3-D cellular materials with and without periodicity constraints is proposed using Hill’s Lemma and the matrix method for spatial frames. In this new approach, the equilibrium equations are enforced at all boundary and interior nodes and each interior node is allowed to translate and rotate freely, which differ from existing methods where the equilibrium conditions are imposed only at the boundary nodes. The newly formulated homogenization method can be applied to cellular materials with or without symmetry. To illustrate the new method, four examples are studied: two for a 2-D cellular material and two for a 3-D pentamode metamaterial, with and without periodic constraints ...
International audienceThe present paper aims at investigating the homogenisation of cellular materia...
This paper presents a new approach to designing periodic microstructures of cellular materials. The ...
© 2020 World Scientific Publishing Company. Micro-structured materials consisting of an array of mic...
AbstractIn this work we propose to study the behavior of cellular materials using a second-order mul...
The literature in the field of higher-order homogenization is mainly focused on 2-D models aimed at ...
The literature in the field of higher-order homogenization is mainly focused on 2-D models aimed at ...
In the last few decades, the popularity of composite and cellular materials has rapidly increased th...
The aim of this work is to develop an efficient multi–scale finite element framework to capture the ...
Abstract The homogenization of periodic hexachiral and tetrachiral honeycombs is dealt with two diff...
A possible classification of cellular solids can be made based on the dimension into honeycombs and ...
peer reviewedAlthough "classical" multi-scale methods can capture the behaviour of cellular, includi...
Generalized continuum mechanical theories such as second gradient elasticity can consider size and l...
International audienceWe present here a topology optimization method based on a homogenization appro...
In this paper a second-order homogenization approach for periodic material is derived from an approp...
International audienceThis paper is motivated by the optimization of so-called lattice materials whi...
International audienceThe present paper aims at investigating the homogenisation of cellular materia...
This paper presents a new approach to designing periodic microstructures of cellular materials. The ...
© 2020 World Scientific Publishing Company. Micro-structured materials consisting of an array of mic...
AbstractIn this work we propose to study the behavior of cellular materials using a second-order mul...
The literature in the field of higher-order homogenization is mainly focused on 2-D models aimed at ...
The literature in the field of higher-order homogenization is mainly focused on 2-D models aimed at ...
In the last few decades, the popularity of composite and cellular materials has rapidly increased th...
The aim of this work is to develop an efficient multi–scale finite element framework to capture the ...
Abstract The homogenization of periodic hexachiral and tetrachiral honeycombs is dealt with two diff...
A possible classification of cellular solids can be made based on the dimension into honeycombs and ...
peer reviewedAlthough "classical" multi-scale methods can capture the behaviour of cellular, includi...
Generalized continuum mechanical theories such as second gradient elasticity can consider size and l...
International audienceWe present here a topology optimization method based on a homogenization appro...
In this paper a second-order homogenization approach for periodic material is derived from an approp...
International audienceThis paper is motivated by the optimization of so-called lattice materials whi...
International audienceThe present paper aims at investigating the homogenisation of cellular materia...
This paper presents a new approach to designing periodic microstructures of cellular materials. The ...
© 2020 World Scientific Publishing Company. Micro-structured materials consisting of an array of mic...