Acceleration time histories in directions normal and parallel to the fuselage cabin floor are given at three positions along the length of the fuselage for impact velocities of 140, 160, 180, and 200 feet per second. It is concluded that during the initial impact at 180 feet per second, peak normal accelerations of 11, 0, and -3 times that of gravity (G's) will be developed 0.03 seconds after impact at Body Stations 180, 682, and 1176. Maximum normal and longitudinal accelerations during the 6 degree ramp crash will occur at 0.24 seconds. Maximum normal accelerations at Body Stations 180, 682, and 1176 will be -17, 8, and 35 G's respectively. Maximum longitudinal accelerations will be 4 G's. It is further concluded that the nose of the airplane will bend upwards 10 inches relative to the center section of the fuselage 0.14 seconds after impact. This deflection will probably be of sufficient magnitude to exceed the ultimate strength of the fuselage above the cabin floor. (Author)


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    Title :

    Theoretical Determination of Crash Loads for a Lockheed 1649 Aircraft in a Crash Test Program


    Contributors:

    Publication date :

    1964


    Size :

    2 pages


    Type of media :

    Report


    Type of material :

    No indication


    Language :

    English




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