Herein, we discuss the folding of highly compliant origami structures—“Soft Origami.” There are benefits to be had in folding compliant sheets (which cannot self-guide their motion) rather than conventional rigid origami. Example applications include scaffolds for artificial tissue generation and foldable substrates for flexible electronic assemblies. Highly compliant origami has not been contemplated by existing theory, which treats origami structures largely as rigid or semirigid mechanisms with compliant hinges—“mechanism-reliant origami.” We present a quantitative metric—the origami compliance metric (OCM)—that aids in identifying proper modeling of a homogeneous origami structure based upon the compliance regime it falls into (soft, hy...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
Soft robots which employ materials with inherent compliance have demonstrated great potential in a v...
In this paper we give a comprehensive introduction to the mathematical definitions and ideas used to...
Origami has gained popularity in science and engineering because a compactly stowed system can be fo...
Origami provides novel approaches to the fabrication, assembly, and functionality of engineering str...
The integration of soft actuating materials within origami-based mechanisms is a novel method to amp...
© Springer Nature Switzerland AG 2019. Origami has several attractive attributes including deployabi...
Origami, the ancient art of paper folding, embodies techniques for transforming a flat sheet of pape...
Origami, the ancient Japanese art of paper folding, is not only an inspiring technique to create sop...
Origami robots are machines whose morphologies and functions are created by folding locally flat she...
Origami, the age-old art of folding intricate three-dimensional structures from flat material, has f...
This work provides an overview of two developments in origami-based mechanism design. Past methods o...
Rigid origami is a class of origami whose entire surface remains rigid during folding except at crea...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
In this paper we present a novel engineering application of Origami, using it for both the exibility...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
Soft robots which employ materials with inherent compliance have demonstrated great potential in a v...
In this paper we give a comprehensive introduction to the mathematical definitions and ideas used to...
Origami has gained popularity in science and engineering because a compactly stowed system can be fo...
Origami provides novel approaches to the fabrication, assembly, and functionality of engineering str...
The integration of soft actuating materials within origami-based mechanisms is a novel method to amp...
© Springer Nature Switzerland AG 2019. Origami has several attractive attributes including deployabi...
Origami, the ancient art of paper folding, embodies techniques for transforming a flat sheet of pape...
Origami, the ancient Japanese art of paper folding, is not only an inspiring technique to create sop...
Origami robots are machines whose morphologies and functions are created by folding locally flat she...
Origami, the age-old art of folding intricate three-dimensional structures from flat material, has f...
This work provides an overview of two developments in origami-based mechanism design. Past methods o...
Rigid origami is a class of origami whose entire surface remains rigid during folding except at crea...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
In this paper we present a novel engineering application of Origami, using it for both the exibility...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
Soft robots which employ materials with inherent compliance have demonstrated great potential in a v...
In this paper we give a comprehensive introduction to the mathematical definitions and ideas used to...