Add to ORKGLarge and ultra-light space structures on base of deployable components will gain in importance for a row of future mission applications. The DLR Institute of Composite Structures and Adaptive Systems is developing deployment concepts for ultra-light carbon-¯bre reinforced struts (CFRP booms), which can be coiled around a hub for stowage within a very tight transportation volume. The development of cost-efficient and qualified production technologies for considerably long booms as well as the design verification including on-ground deployment tests are further tasks currently being worked out. Adaptive materials are effient means to reduce the oscillations of the very large and flexible structures. They were successfully development tested ...
At the DLR Institute of Composite Structures and Adaptive Systems and the company Kayser-Threde extr...
Some examples of what has been recently developed as ultra lightweight CFRP structures for space app...
The risk for spacecraft in Low Earth orbit (LEO) to be hit or damaged is increasing due to a growing...
Large deployable lightweight structures development plays a key role for a number of future space ap...
Since about 15 years DLR has been investigating the use of deployable masts for large deployable spa...
ABSTRACT: The DLR Institute of Structural Mechanics is developing ultralightweight deployable CFRP B...
The article addresses engineering activities on a key item of innovative solar sail propulsion techn...
Solar sail technology holds the promise of significantly enhancing the interplanetary infrastructure...
Deployable structures are required to either enable orbit transfer of very large structure or to mak...
lightweight deployable CFRP Booms within the scope of the joint DLR/ESA Solar Sail technology demons...
Future solar sail spacecraft which do not need any rocket motors and propellants are a promising opt...
Deployable structures are required to either enable orbit transfer of very large structure or to mak...
Gossamer space structures like solar sails, drag sails or solar arrays expand to very large dimensio...
Spacecraft, intended for solar sailing mission rely on deployable systems to achieve large area to m...
This paper presents novel ultra-light booms for solar sails and other large deployable space structu...
At the DLR Institute of Composite Structures and Adaptive Systems and the company Kayser-Threde extr...
Some examples of what has been recently developed as ultra lightweight CFRP structures for space app...
The risk for spacecraft in Low Earth orbit (LEO) to be hit or damaged is increasing due to a growing...
Large deployable lightweight structures development plays a key role for a number of future space ap...
Since about 15 years DLR has been investigating the use of deployable masts for large deployable spa...
ABSTRACT: The DLR Institute of Structural Mechanics is developing ultralightweight deployable CFRP B...
The article addresses engineering activities on a key item of innovative solar sail propulsion techn...
Solar sail technology holds the promise of significantly enhancing the interplanetary infrastructure...
Deployable structures are required to either enable orbit transfer of very large structure or to mak...
lightweight deployable CFRP Booms within the scope of the joint DLR/ESA Solar Sail technology demons...
Future solar sail spacecraft which do not need any rocket motors and propellants are a promising opt...
Deployable structures are required to either enable orbit transfer of very large structure or to mak...
Gossamer space structures like solar sails, drag sails or solar arrays expand to very large dimensio...
Spacecraft, intended for solar sailing mission rely on deployable systems to achieve large area to m...
This paper presents novel ultra-light booms for solar sails and other large deployable space structu...
At the DLR Institute of Composite Structures and Adaptive Systems and the company Kayser-Threde extr...
Some examples of what has been recently developed as ultra lightweight CFRP structures for space app...
The risk for spacecraft in Low Earth orbit (LEO) to be hit or damaged is increasing due to a growing...