Deployable membranes are being increasingly applied in numerous space projects owing to their light weight, small stowage volume and capacity for use at large scales. The geometric design of biomimetic folding is studied to design crease patterns for triangular deployable membranes applied in space. Various crease designs for triangular membranes based on leaf-in, leaf-out and orthogonal patterns are put forward, especially patterns composed of triangular and hexagonal units. In order to analyse the membrane folding method based on biomimetic folding, a set of evaluation indices, including linear dimension ratio, deployment ratio, crease length and junction number, are established. The indices for various membrane folding patterns are calcu...
This paper discusses what has been found and what will be found using conceptual “origami” models to...
Experimental studies on thin membranes of micrometer scale require sophisticated instruments and gau...
We present a design for a deployable multi-layered membrane structure that uses a curved crease patt...
The performance of deployment properties on folded membrane structures for solar sail was investigat...
A deployable structure should mainly be adequately compact and should fit into any remaining space o...
Creases are highly localized regions ubiquitous across different length scales in low-dimensional na...
New designs for space structures such as solar sails and star shades are based on architectures tha...
Deployable membrane structures have received wide attention in many engineering applications, such a...
Space structures such as solar sails, solar reflectors, and sun shields have very large surface are...
This paper presents a study of a square membrane, creased according to the Miura-ori folding pattern...
Solar sails provides a propellant free propulsion system that converts a small portion ofsolar radi...
Rigid origami is about folding flat inextensional facets which are connected by creases. It is gaini...
Piecewise Straight Fold is proposed for large solar sail membranes to simultaneously realize the hig...
The paper presents a system, made out of foldable ‘kinked’ beams and a membrane skin, based on a con...
Deployment systems for innovative space applications such as solar sails require a technique for a c...
This paper discusses what has been found and what will be found using conceptual “origami” models to...
Experimental studies on thin membranes of micrometer scale require sophisticated instruments and gau...
We present a design for a deployable multi-layered membrane structure that uses a curved crease patt...
The performance of deployment properties on folded membrane structures for solar sail was investigat...
A deployable structure should mainly be adequately compact and should fit into any remaining space o...
Creases are highly localized regions ubiquitous across different length scales in low-dimensional na...
New designs for space structures such as solar sails and star shades are based on architectures tha...
Deployable membrane structures have received wide attention in many engineering applications, such a...
Space structures such as solar sails, solar reflectors, and sun shields have very large surface are...
This paper presents a study of a square membrane, creased according to the Miura-ori folding pattern...
Solar sails provides a propellant free propulsion system that converts a small portion ofsolar radi...
Rigid origami is about folding flat inextensional facets which are connected by creases. It is gaini...
Piecewise Straight Fold is proposed for large solar sail membranes to simultaneously realize the hig...
The paper presents a system, made out of foldable ‘kinked’ beams and a membrane skin, based on a con...
Deployment systems for innovative space applications such as solar sails require a technique for a c...
This paper discusses what has been found and what will be found using conceptual “origami” models to...
Experimental studies on thin membranes of micrometer scale require sophisticated instruments and gau...
We present a design for a deployable multi-layered membrane structure that uses a curved crease patt...