A series of dynamic simulations were completed on the National Aeronautics and Space Administration(NASA) Lift plus Cruise (LPC) concept electric Vertical Take-off and Landing (eVTOL) vehicle in preparation for an anticipated future full-scale crash-test campaign. The crash test campaign is envisioned as a data gathering exercise with an intent generating full-scale test data to inform eVTOL crashworthiness regulations, evaluate the use of energy absorbing concepts within vehicle design, and validate finite element modeling techniques used in crashworthiness predictions. This report discusses the two main objectives for the simulation efforts: the development of a structural cabin section, and a series of analyses utilized to determine the sensitivities of impact variables. A structural cabin section was created based from previous research efforts involving the LPC vehicle utilized for occupant response. To refine for the structural modifications, the wing and tail sections of the vehicle were removed. The tail was replaced with a representative mass at the aft of the fuselage. The overhead wing was replaced with a beam structure sized to approximate the bending response of the wing under crash loading conditions. The beam structure was fixed to the fuselage similar to the original Wingbox design in order to properly capture effects of this overhead mass on survivable volume within the vehicle. The fidelity of the fuselage frame structure within the FEM was increased to quantify the effect of frame sizing on structural response. From this an eVTOL test article design was developed, which satisfied basic crashworthiness requirements, was reconfigurable to assess the effect of various design avenues on structural response and optimized to improve manufacturability. The impact variable sensitivity results primarily show the orientation of the impact vector played a major role in types of injuries sustained, along with their severity. The vehicle was largely insensitive to small variations in pitch attitude but highly sensitive to both impact surface at certain angles and landing gear location.


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    Title :

    Simulation of Lift plus Cruise Vehicle Models to Define a Full-Scale Crash Test Campaign


    Contributors:
    J. Littell (author) / J. Putnam (author) / M. Cooper (author)

    Publication date :

    2021


    Size :

    20 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English





    SIMULATION OF LIFT PLUS CRUISE VEHICLE MODELS TO DEFINE A FULL-SCALE CRASH TEST CAMPAIGN

    Littell, J. / Putnam, J. / Cooper, M. | British Library Conference Proceedings | 2021




    Simulation of Lift plus Cruise Vehicle Models to Define a Full-Scale Crash Test Campaign

    Justin David Littell / Jacob B Putnam / Megan Cooper | NTRS