Coiled deployable booms have been used extensively in space and are a large part of the deployable space structures family. They have a wide variety of uses such as the deployment of instruments, gravity-gradient stabilisation masses and more recently solar sails. Most deployable booms are similar to a carpenter's tape measure in the way they are coiled in a retracted condition and then deploy to form the boom structure. There have been many developments in the optimisation of boom properties in the deployed state, by using different shape cross sections and by using different materials. The first metal tape spring booms have developed into the more modern booms with a variety of cross sections. One aspect that is common to all booms is the...
This study aims to demonstrate the synchronous and stable deployment of a newly proposed boom system...
Deployable structures are required for many satellite operations, to deploy booms for communications...
Composite thin-walled booms can easily be folded and self-deployed by releasing stored strain energy...
Deployable booms are an essential part of the deployable structures family used in space. They can b...
Deployable coilable booms have many advantages for use in space, but these kinds of structures some...
Deployable coilable booms are extendible structures that have been used in a number of space and te...
Coiled deployable booms have seen a wide variety of uses both in space and terrestrial applications....
Deployable coilable booms are extendible structures that have been used in a number of space and ter...
Thin cylindrical shell structures may provide an interesting breakthrough for deployable structures...
Development and operation of metal ribbon which acts like self deploying boom are described. Metal r...
This thesis deals with the further development of a boom deployment mechanism with integrated boom r...
Reduction of Moments induced on the Coiling Hub of a Boom Deployment Mechanism Many deployable syst...
Self-deploying structures seek to provide a compact launch package for large, lightweight satellite ...
Inflatables have considerable packing efficiencies and allow simple deployment. This is due to their...
Deployable structures are required to either enable orbit transfer of very large structure or to mak...
This study aims to demonstrate the synchronous and stable deployment of a newly proposed boom system...
Deployable structures are required for many satellite operations, to deploy booms for communications...
Composite thin-walled booms can easily be folded and self-deployed by releasing stored strain energy...
Deployable booms are an essential part of the deployable structures family used in space. They can b...
Deployable coilable booms have many advantages for use in space, but these kinds of structures some...
Deployable coilable booms are extendible structures that have been used in a number of space and te...
Coiled deployable booms have seen a wide variety of uses both in space and terrestrial applications....
Deployable coilable booms are extendible structures that have been used in a number of space and ter...
Thin cylindrical shell structures may provide an interesting breakthrough for deployable structures...
Development and operation of metal ribbon which acts like self deploying boom are described. Metal r...
This thesis deals with the further development of a boom deployment mechanism with integrated boom r...
Reduction of Moments induced on the Coiling Hub of a Boom Deployment Mechanism Many deployable syst...
Self-deploying structures seek to provide a compact launch package for large, lightweight satellite ...
Inflatables have considerable packing efficiencies and allow simple deployment. This is due to their...
Deployable structures are required to either enable orbit transfer of very large structure or to mak...
This study aims to demonstrate the synchronous and stable deployment of a newly proposed boom system...
Deployable structures are required for many satellite operations, to deploy booms for communications...
Composite thin-walled booms can easily be folded and self-deployed by releasing stored strain energy...