Type of Document Dissertation Author Tentor, Lawrence B. URN etd-05272002-194631 Title Characterization of an Electromagnetic Tuned Vibration Actuator Degree PhD Department Mechanical Engineering Advisory Committee
Advisor Name Title Wicks, Alfred L. Committee Chair Ahmadian, Mehdi Committee Member Cudney, Harley H. Committee Member Inman, Daniel J. Committee Member Robertshaw, Harry H. Committee Member Keywords
- Electromagnetic Fields
- Tuned Vibration Absorber
Date of Defense 2000-09-14 Availability unrestricted AbstractTuned vibration absorbers (TVA) have been discussed in literature since the early twentieth century. These devices are implemented to suppress the system’s vibration by transferring energy to the absorber mass. This research examines an electromagnetic tuned vibration absorber that can have its tuned frequency altered by gap and current variation. The advantage of an adjustable TVA is that the system can be tuned to various excitation frequencies to cancel vibration. This research examines a unique embodiment using permanent magnets and an electromagnetic absorber to alter the system dynamics. The focus is to allow changes in tuned frequency to cancel system vibrations. This research develops the electromagnetic theory, presents absorber system simulations, and tests the dynamic absorber’s response.
The electromagnetic field is investigated to determine the field between a stationary magnet and the absorber electromagnet. This field can be numerically calculated as the superposition of four constituent fields. With the electromagnetic field determined, the force to displacement relation between the stationary magnet and the absorber electromagnet is calculated. The best fit is determined to be an inverse square relationship. Once the spring force relation is determined, the damping mechanisms are discussed and experiments proposed to isolate the different damping mechanisms. In the simulations, it is found that by having an adjustable electromagnetic TVA the natural frequency can be adjusted 2-3% with a +10 amp input and over 50% for a variable gap. The advantage of the variable gap is that it may be adjusted once and then no additional energy is needed, while the advantage of the variable current is that the system may be rapidly altered.
The experiments are undertaken to test the constructed absorber for the spring and damping force. The tests confirm the spring force relation and quantify the high damping present in the tested configuration. Then the absorber system transfer functions are recorded. The absorber is then applied to a single degree of freedom system to verify its cancellation results by a gap variation.
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