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Summary of Vibration Isolation

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  • Summary of Vibration Isolation

    Previously I asked about vibration damping a servohydraulic testing
    machine while we were fatiguing specimens. I received several
    suggestions and requests for info. We solved the problem fairly
    inexpensively (there were much more expensive solutions). Below is a
    summary:



    When we moved into the 4th floor of an office building, we located
    the load frame (Instron Bi-axial Servohydraulic 8521S) along an
    outside wall near a load-bearing column. The frame was placed on the
    floor (vinyl tiles on a five inch thick concrete floor) with the
    factory-supplied rubber pads under the feet.

    When we ran the machine in fatigue, we found that the floor would
    vibrate around the machine and even as far as about 40 feet away.
    The vibration was not confined to our floor as people above and below
    us complained that their computer monitors were shaking in an
    annoying fashion. We were using a sinusoidal waveform with an
    amplitude of approximately 3 mm and a frequency of 16 Hz, although
    the excess vibration did not tail off completely until the frequency
    was below 5 Hz.

    We looked at air cushion isolators from Instron, MTS, and McMaster
    Carr as well as a spring isolator from Kinetics Noise Control. We
    settled on four "single tire" air cushions from McMaster Carr ($100
    each, made by Goodyear) and found that this virtually eliminated the
    transmission of vibration from the frame to the floor. However,
    especially at lower air pressures with a low frequency (e.g. 5 Hz)
    waveform, the frame "bounces" during fatigue testing. This bouncing
    produces a marked inertial loading on the load cell. We have
    overcome this problem by maintaining the air cushions at high
    pressure (100 psi) and running with a faster frequency (e.g. 16 Hz)
    waveform.


    NOTE: we also did some investigations into inertial loading during
    fatigue testing and found that there was significant inertial
    loading. So a word of caution - if your are testing in fatigue be
    very careful about interpreting your load readings!

    --


    __________________________________________________ _________________________
    J.J. Trey Crisco, Ph.D.
    Dir. Bioengineering Laboratory
    Assoc. Professor, Dept. of Orthopaedics
    Brown Medical School / Rhode Island Hospital
    Adjunct Assoc. Prof.
    Division of Engineering, Brown University
    Research Dir. NOCSAE

    1 Hoppin Street
    Coro West, Suite 404
    Providence, RI 02903
    Tel: 401-444-4231
    Fax: 401-444-4418
    email: joseph_crisco@brown.edu
    __________________________________________________ _________________________

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