Honeycomb-like microstructures have been shown to exhibit local elastic buckling under compression, with three possible geometric buckling modes, or pattern transformations. The individual pattern transformations, and consequently also spatially distributed patterns, can be induced by controlling the applied compression along two orthogonal directions. Exploitation of this property holds great potential in, e.g., soft robotics applications. For fast and optimal design, efficient numerical tools are required, capable of bridging the gap between the microstructural and engineering scale, while capturing all relevant pattern transformations. A micromorphic homogenization framework for materials exhibiting multiple pattern transformations is th...
This paper presents a novel transient computational homogenization procedure that is suitable for th...
International audienceIn this paper, a framework for computational homogenization of shell structure...
peer reviewedAlthough "classical" multi-scale methods can capture the behaviour of cellular, includi...
Honeycomb-like microstructures have been shown to exhibit local elastic buckling under compression, ...
Mechanical metamaterials feature engineered microstructures designed to exhibit exotic, and often co...
This paper presents a homogenization framework for elastomeric metamaterials exhibiting long-range c...
AbstractExotic behaviour of mechanical metamaterials often relies on an internal transformation of t...
This paper focuses on size effects in periodic mechanical metamaterials driven by reversible pattern...
When studying the behavior of foams by multi-scale computational homogenization procedure, the micr...
Computational homogenization allows to let the macroscopic constitutive behavior of materials emerge...
This part of the CISM course addresses basics and advanced topics onthe computational homogenization...
This paper presents a novel transient computational homogenization procedure that is suitable for th...
International audienceIn this paper, a framework for computational homogenization of shell structure...
peer reviewedAlthough "classical" multi-scale methods can capture the behaviour of cellular, includi...
Honeycomb-like microstructures have been shown to exhibit local elastic buckling under compression, ...
Mechanical metamaterials feature engineered microstructures designed to exhibit exotic, and often co...
This paper presents a homogenization framework for elastomeric metamaterials exhibiting long-range c...
AbstractExotic behaviour of mechanical metamaterials often relies on an internal transformation of t...
This paper focuses on size effects in periodic mechanical metamaterials driven by reversible pattern...
When studying the behavior of foams by multi-scale computational homogenization procedure, the micr...
Computational homogenization allows to let the macroscopic constitutive behavior of materials emerge...
This part of the CISM course addresses basics and advanced topics onthe computational homogenization...
This paper presents a novel transient computational homogenization procedure that is suitable for th...
International audienceIn this paper, a framework for computational homogenization of shell structure...
peer reviewedAlthough "classical" multi-scale methods can capture the behaviour of cellular, includi...