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Jiang Zhongwei

Affiliate Master Yamaguchi University

Optimum design of piezoelectric bimorph cell for active vibration control of flexible beam

Transactions of the Japan Society of Mechanical Engineers. C Volume 61 Issue 581 Page 57-64
published_at 1995-01
2010010168.pdf
[fulltext] 442 KB
Title
柔軟梁制御用バイモルフ型圧電素子の最適設計に関する研究
Optimum design of piezoelectric bimorph cell for active vibration control of flexible beam
Creators Jiang Zhong-Wei
Creators Tanaka Mami
Creators Ibayashi Jun
Creators Chonan Seiji
Creator Keywords
dynamics of machinary flexible structure dynamic compliance higher-mode vibration distributed actuator multiple sensors
This paper presents a study on the optimum design of a distributed actuator that is introduced in order to suppress the multimode vibration of a flexible structure. The piezoelectric bimorph cell installed as a distributed actuator is driven so that it suppresses the transient vibration of a flexible cantilever. The actuator is designed with the inclusion of the idea of dynamic compliances, of which is the compliance of the beam driven by a distributed actuator, while the other is the oscillation compliance of a beam subjected to a sinusoidal fluctuation at its base. It is found that a piezoelectric actuator to supress the multimodal vibration can be designed systematically with the use of the compliances proposed here.
Languages jpn
Resource Type journal article
Publishers 日本機械学会
Date Issued 1995-01
Rights
Copyright: 日本機械学会 (The Japan Society of Mechanical Engineers)()
File Version Version of Record
Access Rights open access
Relations
[ISSN]0387-5024
[NCID]AN00187463
[isVersionOf] [URI]http://www.jsme.or.jp/publish/ronbun/
Schools 大学院理工学研究科(工学)