Add to ORKGIn the last decades the use of cellular materials, either in the form of foams or lattices, has widely spread in engineering due to their specific properties, namely their high mechanical and multifunctional properties in terms of strength, stiffness, energy absorption, thermal and acoustic insulation at small weight compared to bulk materials. These features can be achieved, in the case of lattices, by designing their structure at different scales, both in two and three dimensions. Additionally, nowadays, complex desired geometries may be easily obtained thanks to consolidated and even recent technologies of production, especially Additive Manufacturing (AM) techniques. The aim of the present work is to investigate the mechanical behaviour...
In energy absorption applications, post-yield behaviour is important. Lattice structures, having low...
Rising popularity of three-dimensional printing has caused an increasing interest in metal lattices ...
Cellular materials are ubiquitous in our world being found in natural and engineered systems as stru...
Cellular lattice structures have been gaining traction because of its fairly low mass and density, ...
A computational preliminary study on the fracture behaviour of two kinds of finite-size bio-inspired...
Lattice materials, such as honeycombs, are remarkable in their ability to combine high stiffness, st...
A computational study on the fracture behaviour of bio-inspired finite-size lattice configurations i...
Foams and microlattices are examples of hybrid materials, being composites of material and space. In...
International audienceIn this study we perform an experimental and computational investigation about...
To create a more sustainable future for aviation, new, lighter-weight structures and materials will ...
Lattice materials are artificial materials made of repeating unit-cells. The internal architecture o...
The failure characteristics of lattice structures are of significant importance in various lightwei...
Lattice material is an innovative structure providing a good range of strength and fracture in relat...
AbstractTwo novel statically indeterminate planar lattice materials are designed: a new Kagome cell ...
Cellular materials are widespread. Some, like wood and bone, occur in nature, while others, like pol...
In energy absorption applications, post-yield behaviour is important. Lattice structures, having low...
Rising popularity of three-dimensional printing has caused an increasing interest in metal lattices ...
Cellular materials are ubiquitous in our world being found in natural and engineered systems as stru...
Cellular lattice structures have been gaining traction because of its fairly low mass and density, ...
A computational preliminary study on the fracture behaviour of two kinds of finite-size bio-inspired...
Lattice materials, such as honeycombs, are remarkable in their ability to combine high stiffness, st...
A computational study on the fracture behaviour of bio-inspired finite-size lattice configurations i...
Foams and microlattices are examples of hybrid materials, being composites of material and space. In...
International audienceIn this study we perform an experimental and computational investigation about...
To create a more sustainable future for aviation, new, lighter-weight structures and materials will ...
Lattice materials are artificial materials made of repeating unit-cells. The internal architecture o...
The failure characteristics of lattice structures are of significant importance in various lightwei...
Lattice material is an innovative structure providing a good range of strength and fracture in relat...
AbstractTwo novel statically indeterminate planar lattice materials are designed: a new Kagome cell ...
Cellular materials are widespread. Some, like wood and bone, occur in nature, while others, like pol...
In energy absorption applications, post-yield behaviour is important. Lattice structures, having low...
Rising popularity of three-dimensional printing has caused an increasing interest in metal lattices ...
Cellular materials are ubiquitous in our world being found in natural and engineered systems as stru...