Session
Technical Session IV: Advanced Technologies Section I
Abstract
A process for the design and fabrication of multifunctional structures has been developed to increase the utility and efficiency of spacecraft. The process addresses the unique requirements associated with small spacecraft and other highly integrated systems. By integrating items such as electrical conductors for signals and power, thermal control elements, and materials for radiation and EMI shielding, these multifunctional structures offer benefits in terms of mass savings, reduced parts count, reduced manufacturing costs for medium to high production quantities, simplified assembly, integration and test, and more highly integrated (smaller) spacecraft.
Presentation Slides
Applications of Multifunctional Structures to Small Spacecraft
A process for the design and fabrication of multifunctional structures has been developed to increase the utility and efficiency of spacecraft. The process addresses the unique requirements associated with small spacecraft and other highly integrated systems. By integrating items such as electrical conductors for signals and power, thermal control elements, and materials for radiation and EMI shielding, these multifunctional structures offer benefits in terms of mass savings, reduced parts count, reduced manufacturing costs for medium to high production quantities, simplified assembly, integration and test, and more highly integrated (smaller) spacecraft.