In this paper we present a novel engineering application of Origami, using it for both the exibility and the rigidity the folding patterns provide. The proposed Folded Textured Sheets have several interesting mechanical properties. The folding patterns are modelled as a pin-jointed framework, which allows the use of established structural engineering methods to gain insight into the kinematics of the folded sheet. The kinematic analysis can be naturally developed into a stiffness matrix approach; by studying its softest eigenmodes, important deformations of a partially folded sheet can be found, which aids in the understanding of Origami sheets for engineering applications
Developing complex spatial objects from a flat sheet of material using origami folding techniques ha...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
The objective of this research is to explore the ability of folded origami tessellations to adapt to...
In this paper we present a novel engineering application of Origami, using it for both the exibility...
Origami has gained popularity in science and engineering because a compactly stowed system can be fo...
Origami patterns, including the rigid origami patterns in which flat inflexible sheets are joined by...
Origami, the ancient Japanese art of paper folding, is not only an inspiring technique to create sop...
Origami inspired structures are gaining traction in the aerospace community. Often ignored, these st...
This paper was motivated by recent activity to replace synthetic, daily-life consumer package soluti...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
Rigid foldability allows an origami pattern to fold about crease lines without twisting or stretchin...
Rigid origami is a class of origami whose entire surface remains rigid during folding except at crea...
Origami, the ancient art of paper folding, embodies techniques for transforming a flat sheet of pape...
Folding paper into a repeated, tessellated, origami pattern can increase the paper’s strength. Using...
Creased sheets can possess an exponential number of folding pathways accessible from the flat state....
Developing complex spatial objects from a flat sheet of material using origami folding techniques ha...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
The objective of this research is to explore the ability of folded origami tessellations to adapt to...
In this paper we present a novel engineering application of Origami, using it for both the exibility...
Origami has gained popularity in science and engineering because a compactly stowed system can be fo...
Origami patterns, including the rigid origami patterns in which flat inflexible sheets are joined by...
Origami, the ancient Japanese art of paper folding, is not only an inspiring technique to create sop...
Origami inspired structures are gaining traction in the aerospace community. Often ignored, these st...
This paper was motivated by recent activity to replace synthetic, daily-life consumer package soluti...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
Rigid foldability allows an origami pattern to fold about crease lines without twisting or stretchin...
Rigid origami is a class of origami whose entire surface remains rigid during folding except at crea...
Origami, the ancient art of paper folding, embodies techniques for transforming a flat sheet of pape...
Folding paper into a repeated, tessellated, origami pattern can increase the paper’s strength. Using...
Creased sheets can possess an exponential number of folding pathways accessible from the flat state....
Developing complex spatial objects from a flat sheet of material using origami folding techniques ha...
Origami (paper folding) is an effective tool for transforming two-dimensional materials into threedi...
The objective of this research is to explore the ability of folded origami tessellations to adapt to...