Add to ORKGSpecific applications where inflatable technology can enable or enhance future space missions are tabulated. The applicability of the inflatable technology to large aperture infra-red astronomy missions is discussed. Space flight validation and risk reduction are emphasized along with the importance of analytical tools in deriving structurally sound concepts and performing optimizations using compatible codes. Deployment dynamics control, fabrication techniques, and system testing are addressed
NASA has funded a collaborative team of The Aerospace Corporation, ILC Dover, Lockheed Martin, and N...
Inflatable structures have seen applications in area such as rescue equipment, civil-, maritime-and ...
Material composition, weight, size, and unfolding factors entering into design of inflatable space s...
Space structures are one of the most critical components for any spacecraft, as they must provide th...
In the 1960\u27s, NASA put considerable effort into inflatable space structures, including Echo I an...
Space inflatable structures technology continues to make progress in the past two years. Additional ...
Abstract-Development and infusion of break-through technologies is needed to enable better, faster a...
Deployable structures are widely used in a variety of space spacecrafts and planetary detectors. Und...
Deployable structures are widely used in a variety of space spacecrafts and planetary detectors. Und...
Abstract Deployable structures are widely used in a variety of space spacecrafts and planetary detec...
Inflatable technology for space applications is under continual development and advances in high str...
Inflatable technology for space applications is under continual development and advances in high str...
Inflatable space structures have the potential to significantly reduce the required launch volume of...
Large, space-based antennas are needed for a variety of different applications.Since there is no mea...
The continuing development of microsatellites and nanosatellites for low Earth orbits requires the c...
NASA has funded a collaborative team of The Aerospace Corporation, ILC Dover, Lockheed Martin, and N...
Inflatable structures have seen applications in area such as rescue equipment, civil-, maritime-and ...
Material composition, weight, size, and unfolding factors entering into design of inflatable space s...
Space structures are one of the most critical components for any spacecraft, as they must provide th...
In the 1960\u27s, NASA put considerable effort into inflatable space structures, including Echo I an...
Space inflatable structures technology continues to make progress in the past two years. Additional ...
Abstract-Development and infusion of break-through technologies is needed to enable better, faster a...
Deployable structures are widely used in a variety of space spacecrafts and planetary detectors. Und...
Deployable structures are widely used in a variety of space spacecrafts and planetary detectors. Und...
Abstract Deployable structures are widely used in a variety of space spacecrafts and planetary detec...
Inflatable technology for space applications is under continual development and advances in high str...
Inflatable technology for space applications is under continual development and advances in high str...
Inflatable space structures have the potential to significantly reduce the required launch volume of...
Large, space-based antennas are needed for a variety of different applications.Since there is no mea...
The continuing development of microsatellites and nanosatellites for low Earth orbits requires the c...
NASA has funded a collaborative team of The Aerospace Corporation, ILC Dover, Lockheed Martin, and N...
Inflatable structures have seen applications in area such as rescue equipment, civil-, maritime-and ...
Material composition, weight, size, and unfolding factors entering into design of inflatable space s...