1997 Fiscal Year Final Research Report Summary
Torsional vibration absorber using liquid
Project/Area Number |
08650283
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Research Category |
Grant-in-Aid for Scientific Research (C)
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Allocation Type | Single-year Grants |
Section | 一般 |
Research Field |
Dynamics/Control
|
Research Institution | Saitama University |
Principal Investigator |
SATO Yuichi Saitama Univ., Eng.Dept., Professor, 工学部, 教授 (30134828)
|
Project Period (FY) |
1996 – 1997
|
Keywords | Torsional vibration / Vibration absorber / Rotating body / Wave / Forced vibration / Liquid / Tuning condition |
Research Abstract |
In rotating machinery, it is generally found that exciting torque occurs at the same frequency as the rotating speed or at multiples of the rotating speed. An untuned vibration damper, such as the Lancaster damper.is frequently used to reduce torsional vibrations. However, it is not as effective as a dynamic absorber. If an attached dynamic absorber has the same natural frequency as the exciting frequency, vibration is suppressed. A centrifugal pendulum vibration absorber effectively eliminates torsional vibrations if it is well tuned. However, it sometimes does not operate satisfactorily due to friction or insufficient adjustment. An The experimental and theoretical study is performed on suppression of torsional vibrations of a rotor by attaching a hollow cylinder partially filled with liquid. The hollow cylinder is divided into identical sectors by radial walls. In addition to measuring torsional vibration, surface waves were photographed to observe the motion of the contained liquid. The number of divisions of tested hollow cylinders is 2,3,4,6, and 8. The tuning conditions for fill ratios are also examined. Experimental results show that the surface waves move backward that is travel in the direction opposite the rotation. Analysis including the Coriolis acceleration terms is presented. Analytical results show good agreement with the experimental ones whereas the analysis without Coriolis terms shows poor agreement. Accordingly the surface wave motion is not stationary due to the Coriolis force which acts while the liquid moves.
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Research Products
(4 results)