In two preceeding NAVAIR programs, materials and processes studies indicated graphite reinforced polysulfone (Gr/Ps) composites have potential cost saving benefits for aircraft structure. Based on the encouraging results of the preceeding programs, the Navy funded a joint Boeing/Navy program to take the next developmental step to build and evaluate some Gr/Ps primary aircraft structural components. The Boeing portion of the program, which is summarized in this report, consisted of: Design Studies, Material and Process Studies, Structural Element and Subcomponent Testing, Prototype Component Fabrication and Delivery, Component Test Planning, Comparative Cost Analysis, Post-test Component Analysis. The prototype Gr/Ps components were designed, for demonstration purposes and low program cost, to replace the aluminum centerbody skins of the XBQM-34E Supersonic Firebee Target drone built by Teledyne Ryan Aeronautical. Comparative cost analyses were performed on preliminary designs prepared for a hypothetical large-scale aircraft fuselage panel using (1) conventional aluminum and (2) graphite-reinforced thermoplastic design concepts. A 20 percent cost saving was offered by the thermoplastic design concept in a 100-unit production run along with a 16 percent weight saving. Ground testing of the Gr/Ps components installed on a XBQM-34E airframe was performed. The components sustained the limit load condition associated with chute recovery (the critical design condition) without damage. Post-test analysis of the measured strains indicates that the load capabilities of the Gr/Ps components exceed their ultimate load requirements.


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    Title :

    Development of a Low-Cost Graphite Reinforced Composite Primary Structural Component


    Contributors:

    Publication date :

    1976


    Size :

    164 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English