We describe mechanical metamaterials created by folding flat sheets in the tradition of origami, the art of paper folding, and study them in terms of their basic geometric and stiffness properties, as well as load bearing capability. A periodic Miura-ori pattern and a non-periodic Ron Resch pattern were studied. Unexceptional coexistence of positive and negative Poisson's ratio was reported for Miura-ori pattern, which are consistent with the interesting shear behavior and infinity bulk modulus of the same pattern. Unusually strong load bearing capability of the Ron Resch pattern was found and attributed to the unique way of folding. This work paves the way to the study of intriguing properties of origami structures as mechanical metamateri...
This paper aims to understand the role of directional material properties on the mechanical response...
Miura-ori is well-known for its capability of flatly folding a sheet of paper through a tessellated ...
Origami has recently emerged as a promising building block of mechanical metamaterials because it of...
Developing complex spatial objects from a flat sheet of material using origami folding techniques ha...
Folding paper into a repeated, tessellated, origami pattern can increase the paper’s strength. Using...
Origami, the ancient Japanese art of paper folding, is not only an inspiring technique to create sop...
Using non-rigid-foldable origami patterns to design mechanical metamaterials could 14 potentially of...
This paper presents two new types of origami-inspired mechanical metamaterials based on the Miura-de...
Origami structures demonstrate great theoretical potential for creating metamaterials with exotic pr...
The physics of origami concerns the relationship between the introduction of creases to a thin sheet...
We present a novel cellular metamaterial constructed from Origami building blocks based on Miura-ori...
In this paper we present a novel engineering application of Origami, using it for both the exibility...
Funding: NSF Award No. PHY-1554887 (B.G.C.). NSF DMR-1822638 (C.S.). Georgia Institute of Technology...
Origami-inspired materials provide effective solutions to control the mechanical properties of sandw...
Rigid foldability allows an origami pattern to fold about crease lines without twisting or stretchin...
This paper aims to understand the role of directional material properties on the mechanical response...
Miura-ori is well-known for its capability of flatly folding a sheet of paper through a tessellated ...
Origami has recently emerged as a promising building block of mechanical metamaterials because it of...
Developing complex spatial objects from a flat sheet of material using origami folding techniques ha...
Folding paper into a repeated, tessellated, origami pattern can increase the paper’s strength. Using...
Origami, the ancient Japanese art of paper folding, is not only an inspiring technique to create sop...
Using non-rigid-foldable origami patterns to design mechanical metamaterials could 14 potentially of...
This paper presents two new types of origami-inspired mechanical metamaterials based on the Miura-de...
Origami structures demonstrate great theoretical potential for creating metamaterials with exotic pr...
The physics of origami concerns the relationship between the introduction of creases to a thin sheet...
We present a novel cellular metamaterial constructed from Origami building blocks based on Miura-ori...
In this paper we present a novel engineering application of Origami, using it for both the exibility...
Funding: NSF Award No. PHY-1554887 (B.G.C.). NSF DMR-1822638 (C.S.). Georgia Institute of Technology...
Origami-inspired materials provide effective solutions to control the mechanical properties of sandw...
Rigid foldability allows an origami pattern to fold about crease lines without twisting or stretchin...
This paper aims to understand the role of directional material properties on the mechanical response...
Miura-ori is well-known for its capability of flatly folding a sheet of paper through a tessellated ...
Origami has recently emerged as a promising building block of mechanical metamaterials because it of...