Abstract: A multi-functional structure saves mass from a spacecraft by incorporating other functional subsystems into the structure. By using the structural properties of a non-structural element, inert structure may be eliminated, and the requirement to allot internal volume to the subsystem in question is removed. The current paper describes a multi-functional structure based on the secondary power system. By using commercially available plastic lithium-ion cells to form the core of a sandwich panel, inert mass is eliminated from both the structure and from the battery enclosure. The feasibility of the proposed multi-functional structure is demonstrated though vibration testing on a single cell, and the successful manufacture of a test pa...
Conventional spacecraft subsystems are designed and manufactured separately, and are integrated only...
Conventional spacecraft subsystems are designed and manufactured separately, and are integrated only...
For next generation microsatellites and nanosatellites, new design approaches will be required to si...
A multi-functional structure saves mass from a spacecraft by incorporating other functional subsyste...
A multi-functional structure saves mass from a spacecraft by incorporating other functional subsyste...
Multifunctional structures offer savings in spacecraft mass and volume by combining the functional e...
Multifunctional structures offer savings in spacecraft mass and volume by combining the functional e...
Multifunctional structures offer the potential for large savings in the mass and cost of spacecraft ...
The technology of multifunctional structures, when applied to spacecraft batteries, allows mass and ...
The technology of multifunctional structures, when applied to spacecraft batteries, allows mass and ...
A multifunctional structure reduces the mass and volume of a spacecraft through the removal of paras...
A multifunctional structure reduces the mass and volume of a spacecraft through the removal of paras...
A multifunctional structure reduces the mass and volume of a spacecraft through the removal of paras...
A main aim of spacecraft design is cost reduction that can either be achieved by reducing the cost o...
For next generation microsatellites and nanosatellites, new design approaches will be required to si...
Conventional spacecraft subsystems are designed and manufactured separately, and are integrated only...
Conventional spacecraft subsystems are designed and manufactured separately, and are integrated only...
For next generation microsatellites and nanosatellites, new design approaches will be required to si...
A multi-functional structure saves mass from a spacecraft by incorporating other functional subsyste...
A multi-functional structure saves mass from a spacecraft by incorporating other functional subsyste...
Multifunctional structures offer savings in spacecraft mass and volume by combining the functional e...
Multifunctional structures offer savings in spacecraft mass and volume by combining the functional e...
Multifunctional structures offer the potential for large savings in the mass and cost of spacecraft ...
The technology of multifunctional structures, when applied to spacecraft batteries, allows mass and ...
The technology of multifunctional structures, when applied to spacecraft batteries, allows mass and ...
A multifunctional structure reduces the mass and volume of a spacecraft through the removal of paras...
A multifunctional structure reduces the mass and volume of a spacecraft through the removal of paras...
A multifunctional structure reduces the mass and volume of a spacecraft through the removal of paras...
A main aim of spacecraft design is cost reduction that can either be achieved by reducing the cost o...
For next generation microsatellites and nanosatellites, new design approaches will be required to si...
Conventional spacecraft subsystems are designed and manufactured separately, and are integrated only...
Conventional spacecraft subsystems are designed and manufactured separately, and are integrated only...
For next generation microsatellites and nanosatellites, new design approaches will be required to si...
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