Add to ORKGTailoring of material architectures in three-dimensions enabled by additive manufacturing (AM) offers the potential to realize bulk materials with unprecedented properties optimized for location-specific structural and/or functional requirements. Here we report tunable energy absorption characteristics of architected honeycombs enabled via material jetting AM. We realize spatially tailored 3D printed honeycombs (guided by FE studies) by varying the cell wall thickness gradient and evaluate experimentally and numerically the energy absorption characteristics. The measured response of architected honeycombs characterized by local buckling (wrinkling) and progressive failure reveals over 110% increase in specific energy absorption (SEA) with a...
Lattice materials, such as honeycombs, are remarkable in their ability to combine high stiffness, st...
A novel bi-graded honeycomb was proposed by introducing both in-plane and out-of-plane thickness gra...
The concept of 3D-printing from the additive manufacturing industry is a method of creating an archi...
Tailoring of material architectures in three-dimensions enabled by additive manufacturing (AM) offer...
Enhancing the energy absorption characteristics of a material/structure without compromising its str...
This article presents the experimental and simulation analysis of the energy absorption capacity o...
Energy resulting from an impact is manifested through unwanted damage to objects or persons. New mat...
When selecting cellular materials for energy absorption applications, there have traditionally bee...
From a design perspective, there are four decisions that need to be made when integrating cellular ...
Materials that are lightweight yet exhibit superior mechanical properties are of compelling importan...
Here, we present the in-plane energy absorption characteristics of modified re-entrant auxetic honey...
Additive Manufacturing of cellular lattice structures offers opportunities to fine-tune the mechanic...
Additive manufacturing (AM) enables the design of new cellular materials for blast and impact mitiga...
In nature, structure, material and function are constantly evolving in tandem. This work employs pol...
This article introduces novel 3D zero Poisson's ratio (ZPR) metamaterials for reversible energy abso...
Lattice materials, such as honeycombs, are remarkable in their ability to combine high stiffness, st...
A novel bi-graded honeycomb was proposed by introducing both in-plane and out-of-plane thickness gra...
The concept of 3D-printing from the additive manufacturing industry is a method of creating an archi...
Tailoring of material architectures in three-dimensions enabled by additive manufacturing (AM) offer...
Enhancing the energy absorption characteristics of a material/structure without compromising its str...
This article presents the experimental and simulation analysis of the energy absorption capacity o...
Energy resulting from an impact is manifested through unwanted damage to objects or persons. New mat...
When selecting cellular materials for energy absorption applications, there have traditionally bee...
From a design perspective, there are four decisions that need to be made when integrating cellular ...
Materials that are lightweight yet exhibit superior mechanical properties are of compelling importan...
Here, we present the in-plane energy absorption characteristics of modified re-entrant auxetic honey...
Additive Manufacturing of cellular lattice structures offers opportunities to fine-tune the mechanic...
Additive manufacturing (AM) enables the design of new cellular materials for blast and impact mitiga...
In nature, structure, material and function are constantly evolving in tandem. This work employs pol...
This article introduces novel 3D zero Poisson's ratio (ZPR) metamaterials for reversible energy abso...
Lattice materials, such as honeycombs, are remarkable in their ability to combine high stiffness, st...
A novel bi-graded honeycomb was proposed by introducing both in-plane and out-of-plane thickness gra...
The concept of 3D-printing from the additive manufacturing industry is a method of creating an archi...