Structural concepts for ultralightweight spacecraft were studied. Concepts for ultralightweight space structures were identified and the validity of heir potential application in advanced spacecraft was assessed. The following topics were investigated: (1) membrane wrinkling under pretensioning; (2) load-carrying capability of pressurized tubes; (3) equilibrium of a precompressed rim; (4) design of an inflated reflector spacecraft; (5) general instability of a rim; and (6) structural analysis of a pressurized isotensoid column. The design approaches for a paraboloidal reflector spacecraft included a spin-stiffened design, both inflated and truss central columns, and to include both deep truss and rim-stiffened geodesic designs. The spinning spacecraft analysis is included, and the two truss designs are covered. The performances of four different approaches to the structural design of a paraboloidal reflector spacecraft are compared. The spinning and inflated configurations result in very low total masses and some concerns about their performance due to unresolved questions about dynamic stability and lifetimes, respectively.


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    Title :

    Study of Structural Concepts for Ultralightweight Spacecraft


    Contributors:
    R. K. Miller (author) / K. Knapp (author) / J. M. Hedgepeth (author)

    Publication date :

    1984


    Size :

    90 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English




    A study of structural concepts for ultralightweight spacecraft

    Miller, R. K. / Knapp, K. / Hedgepeth, J. M. | NTRS | 1984





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