Add to ORKGAuxetic materials exhibiting a negative Poisson's ratio are of great research interest due to their unusual mechanical responses and a wide range of potential deployment. Efforts have been devoted to exploring novel 2D and 3D auxetic structures through rational design, optimization, and taking inspiration from nature. Here we report a 3D architected lattice system showing a negative Poisson's ratio over a wide range of applied uniaxial stretch. 3D printing, experimental tests, numerical simulation, and analytical modeling are implemented to quantify the evolution of the Poisson's ratio and reveal the underlying mechanisms responsible for this unusual behavior. We further show that the auxetic behavior can be controlled by tailoring the geom...
Poisson’s ratio for solid materials is defined as the ratio of the lateral length shrinkage to the l...
Poisson’s ratio for solid materials is defined as the ratio of the lateral length shrinkage to the l...
Up until recently, the rational design of mechanical metamaterials has usually involved devising geo...
In this article we propose a new auxetic periodic lattice with negative Poisson's ratio which tends ...
Elastic instability of soft cellular solids plays an increasingly important role in the creation of ...
The work presents a novel polyhedral mechanical metamaterial based on rotating triangular prisms con...
Materials with a negative Poisson's ratio, also known as auxetics, have attracted a lot attention as...
This work proposes the complete design cycle for several auxetic materials where the cycle consists ...
This work proposes the complete design cycle for several auxetic materials where the cycle consists ...
The surge of interest in so-called "designer materials" during the last few years together with rece...
Auxetic metamaterials have generated a great deal of interest in recent years. In this letter, a nov...
The surge of interest in so-called "designer materials" during the last few years together with rece...
The paper investigates the potential of auxetics in architectural applications by means of computati...
The paper investigates the potential of auxetics in architectural applications by means of computati...
(Eurographics 2021)International audienceThis paper is devoted to a category of metamaterials called...
Poisson’s ratio for solid materials is defined as the ratio of the lateral length shrinkage to the l...
Poisson’s ratio for solid materials is defined as the ratio of the lateral length shrinkage to the l...
Up until recently, the rational design of mechanical metamaterials has usually involved devising geo...
In this article we propose a new auxetic periodic lattice with negative Poisson's ratio which tends ...
Elastic instability of soft cellular solids plays an increasingly important role in the creation of ...
The work presents a novel polyhedral mechanical metamaterial based on rotating triangular prisms con...
Materials with a negative Poisson's ratio, also known as auxetics, have attracted a lot attention as...
This work proposes the complete design cycle for several auxetic materials where the cycle consists ...
This work proposes the complete design cycle for several auxetic materials where the cycle consists ...
The surge of interest in so-called "designer materials" during the last few years together with rece...
Auxetic metamaterials have generated a great deal of interest in recent years. In this letter, a nov...
The surge of interest in so-called "designer materials" during the last few years together with rece...
The paper investigates the potential of auxetics in architectural applications by means of computati...
The paper investigates the potential of auxetics in architectural applications by means of computati...
(Eurographics 2021)International audienceThis paper is devoted to a category of metamaterials called...
Poisson’s ratio for solid materials is defined as the ratio of the lateral length shrinkage to the l...
Poisson’s ratio for solid materials is defined as the ratio of the lateral length shrinkage to the l...
Up until recently, the rational design of mechanical metamaterials has usually involved devising geo...