A deployable structure should mainly be adequately compact and should fit into any remaining space of the launch vehicle. The main factors which will determine these are the folding pattern, ease of deployment and stresses in the fold lines. Two folding patterns are selected based on extensive literature review to investigate the possibility of using those techniques for a large solar sail mission. It is expensive as well as extremely time consuming to perform experimental investigation under reduced gravity environment for this type of large membranes. Thus developing simulating techniques are quite important. Two models are simulated using Abaqus/Explicit commercial finite element software. Quasistatic conditions and numerical accuracy a...
Deployment systems for innovative space applications such as solar sails require technology for a co...
Deployment systems for innovative space applications such as solar sails require technology for a co...
In this paper, the spring-mass system model developed for simple numerical simulations of thin membr...
Space structures such as solar sails, solar reflectors, and sun shields have very large surface are...
Solar sails provides a propellant free propulsion system that converts a small portion ofsolar radi...
Concept of solar sailing which uses solar energy to propel a spacecraft is becoming popular as a low...
The performance of deployment properties on folded membrane structures for solar sail was investigat...
New designs for space structures such as solar sails and star shades are based on architectures tha...
In this paper we are concerned with the wrapping of a flat, thin membrane around a central hub. The ...
In the past years, miscellaneous techniques to stow and deploy large structures have been developed....
Deployment systems for innovative space applications such as solar sails require a technique for a c...
Deployable membrane structures have received wide attention in many engineering applications, such a...
All currently considered solar sail designs require the deployment of a thin reflective membrane. Th...
Deployable membranes are being increasingly applied in numerous space projects owing to their light ...
Piecewise Straight Fold is proposed for large solar sail membranes to simultaneously realize the hig...
Deployment systems for innovative space applications such as solar sails require technology for a co...
Deployment systems for innovative space applications such as solar sails require technology for a co...
In this paper, the spring-mass system model developed for simple numerical simulations of thin membr...
Space structures such as solar sails, solar reflectors, and sun shields have very large surface are...
Solar sails provides a propellant free propulsion system that converts a small portion ofsolar radi...
Concept of solar sailing which uses solar energy to propel a spacecraft is becoming popular as a low...
The performance of deployment properties on folded membrane structures for solar sail was investigat...
New designs for space structures such as solar sails and star shades are based on architectures tha...
In this paper we are concerned with the wrapping of a flat, thin membrane around a central hub. The ...
In the past years, miscellaneous techniques to stow and deploy large structures have been developed....
Deployment systems for innovative space applications such as solar sails require a technique for a c...
Deployable membrane structures have received wide attention in many engineering applications, such a...
All currently considered solar sail designs require the deployment of a thin reflective membrane. Th...
Deployable membranes are being increasingly applied in numerous space projects owing to their light ...
Piecewise Straight Fold is proposed for large solar sail membranes to simultaneously realize the hig...
Deployment systems for innovative space applications such as solar sails require technology for a co...
Deployment systems for innovative space applications such as solar sails require technology for a co...
In this paper, the spring-mass system model developed for simple numerical simulations of thin membr...