Deployable Structural Booms for Large Deployable Solar Arrays

Period of Performance: 01/01/2014 - 12/31/2014


Phase 1 SBIR

Recipient Firm

500 South Arthur, Unit 300
Louisville, CO 80027
Principal Investigator
Firm POC


The development of a new generation of large, high power deployable solar arrays has been identified as the most significant challenge facing the development of solar electric propulsion (SEP) systems. In response, innovative solar array structural concepts have been proposed including flexible thin-film solar arrays which roll like a carpet for stowage. These systems are simple and reliable while also exhibiting high performance. Rollable solar arrays have not yet reached a high enough technology readiness level (TRL) to be utilized as the primary solar array in a high-stakes mission. The TRL of the current rollable solar array systems is hindered by their reliance on a particular manifestation of deployable slit-tubes which utilizes an open and unsupported slit and high-performance fiber-reinforced polymer (FRP) composite materials. The FRP slit tubes are high performance and ideally suited to the ROSA system, but do not have sufficient test-heritage or widely accepted engineering tools to enable reliable and efficient structural predictions such as buckling strength or design optimization studies. A slit-tube optimization loop including comprehensive testing and analysis as well as the evaluation of novel design features and manufacturing methods is proposed to improve roll out solar array technologies being considered for SEP. The proposed technology will result in a library of slit-tube test data with analytical correlation, will increase the deployed strength over the state of the art by 4X and increase the state of the art TRL.