The Subsonic Fixed Wing Project conducts research to improve prediction methods and technologies that will produce lower noise, lower emissions, and higher performing subsonic aircraft for the Next Generation Air Transportation System. Subproject: FW Structural Efficiency: Lightweight, multi-objective and multifunctional structures (e.g., structures that can carry load and attenuate noise at the same time) are being developed to reduce the weight of both airframes and engines. Adaptive and flexible wing structures with aeroelastic tailoring offer significant weight reduction due to the elimination of a heavy actuation system. Extensive use of polymer matrix composites (PMCs) in airframe and engine structures (where applicable) will offer significant weight reduction opportunities. Research on composite technology is focused on developing alternate processes that will enable fabrication of large structures, increasing the temperature capability toward greater usage in engine and supersonic airframe structures, developing advanced structural concepts, and modeling damage initiation and progression in composite structures.


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    Titel :

    Photogrammetric Verification of Fiber Optic Shape Sensors on Flexible Aerospace Structures


    Beteiligte:
    Jason P Moore (Autor:in) / Matthew D Rogge (Autor:in) / Thomas W Jones (Autor:in)

    Kongress:

    IEEE Avionics Fiber Optics and Photonics Conference (AVFOP 2012) ; 2012 ; Cocoa Beach, FL, US


    Medientyp :

    Sonstige


    Format :

    Keine Angabe


    Sprache :

    Englisch


    Schlagwörter :



    Photogrammetric Verification of Fiber Optic Shape Sensors on Flexible Aerospace Structures

    Moore, Jason P. / Rogge, Matthew D. / Jones, Thomas W. | NTRS | 2012



    Damage detection in civil and aerospace structures with fiber optic sensors

    Elvin, Niell Glen | DSpace@MIT | 1995

    Freier Zugriff

    Photogrammetric techniques for aerospace applications

    Liu, Tianshu | Online Contents | 2012