The literature in the field of higher-order homogenization is mainly focused on 2-D models aimed at composite materials, while it lacks a comprehensive model targeting 3-D lattice materials (with void being the inclusion) with complex cell topologies. For that, acomputational homogenization scheme based on Mindlin (type II) strain gradient elasticity theory is developed here. The model is based on variational formulation with periodic boundary conditions, implemented in the open-source software FreeFEM to fully characterize the effective classical elastic, coupling, and gradient elastic matrices in lattice materials. Rigorous mathematical derivations based on equilibrium equations and Hill-Mandel lemma are provided, resulting in the introdu...
Lattice-based workpieces contain patterned repetition of individuals of a basic topology (Schwarz, o...
In the last few decades, the popularity of composite and cellular materials has rapidly increased th...
Strain gradient theory is an accurate model for capturing the size effect and localization phenomena...
The literature in the field of higher-order homogenization is mainly focused on 2-D models aimed at ...
Generalized continuum mechanical theories such as second gradient elasticity can consider size and l...
A generalized strain energy-based homogenization method for 2-D and 3-D cellular materials with and ...
International audienceA computational homogenization method to determine the effective parameters of...
peer reviewedAlthough "classical" multi-scale methods can capture the behaviour of cellular, includi...
Classical effective descriptions of heterogeneous materials fail to capture the influence of the spa...
A gradient-enhanced computational homogenization procedure, that allows for the modelling of microst...
In this paper the intrinsic role of the size of the microstructural representative volume element (R...
Computational first-order homogenization theory is used for the elastic analysis of generally anisot...
AbstractIn this work we propose to study the behavior of cellular materials using a second-order mul...
Through a second-order homogenization procedure, the explicit relation is obtained between the non-l...
This paper presents the detailed implementation and computational aspects of a novel second-order co...
Lattice-based workpieces contain patterned repetition of individuals of a basic topology (Schwarz, o...
In the last few decades, the popularity of composite and cellular materials has rapidly increased th...
Strain gradient theory is an accurate model for capturing the size effect and localization phenomena...
The literature in the field of higher-order homogenization is mainly focused on 2-D models aimed at ...
Generalized continuum mechanical theories such as second gradient elasticity can consider size and l...
A generalized strain energy-based homogenization method for 2-D and 3-D cellular materials with and ...
International audienceA computational homogenization method to determine the effective parameters of...
peer reviewedAlthough "classical" multi-scale methods can capture the behaviour of cellular, includi...
Classical effective descriptions of heterogeneous materials fail to capture the influence of the spa...
A gradient-enhanced computational homogenization procedure, that allows for the modelling of microst...
In this paper the intrinsic role of the size of the microstructural representative volume element (R...
Computational first-order homogenization theory is used for the elastic analysis of generally anisot...
AbstractIn this work we propose to study the behavior of cellular materials using a second-order mul...
Through a second-order homogenization procedure, the explicit relation is obtained between the non-l...
This paper presents the detailed implementation and computational aspects of a novel second-order co...
Lattice-based workpieces contain patterned repetition of individuals of a basic topology (Schwarz, o...
In the last few decades, the popularity of composite and cellular materials has rapidly increased th...
Strain gradient theory is an accurate model for capturing the size effect and localization phenomena...