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VIBRATION CONTROL OF A ROTATING DISK

✍ Scribed by C.-C. HUANG; R.-J. CHOU

Publisher
Elsevier Science
Year
2000
Tongue
English
Weight
225 KB
Volume
14
Category
Article
ISSN
0888-3270

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✦ Synopsis

The transverse vibration of a rotating disk has been receiving increasing attention because of its prevailing role as a basic element in rotating machinery applications. To suppress the vibration without su!ering from spillover, a feedback controller which can eliminate an in"nite number of vibration modes is absolutely needed. The control approach is developed based on the root locus of an in"nite number of poles and zeros using one set of discrete sensor and actuator. The root-locus approach can yield the controller of simple scheme. For the colocated sensor and actuator, a feedback controller which contributes the phase angle between 0 and 1803 can stabilise all vibration modes. By properly positioning the noncolocated sensor and actuator, a feedback controller that possesses the phase angle between 0 and 1803 and a satisfactory amplitude attenuation can lead to the elimination of all the vibration modes except the much higher frequency modes. The sustained oscillation of the much higher frequency modes are usually insigni"cant, and will eventually die out due to internal structural damping. The proposed controllers have been successfully implemented for simulation.

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