Meiji University TopMachine Dynamics LaboratoryJapanese/English
School of Science & Technology
Dept. Mechanical Engineering Informatics
TOP > Research
Vibration suppression device that has variable moment of inertia using magneto-rheological fluid
vibration suppression device, which is having variable moment of inertia by using the MR fluid, is developed. The MR fluid is filled into the flywheel, and magnetic field is applied to the flywheel by electromagnets.
Electromagnetic damper using brushless direct drive DC motor
To fabricate a semiactive type of damper that is comparatively compact and has low mechanical loss, the author developed an electromagnetic damper using a brushless direct drive DC motor.
Vibration suppression device that has variable inertia mass using CVT
In this paper author proposed a unique vibration suppression device that has variable inertia mass using continuously variable transmission (CVT) in order to obtain vibration isolation when a harmonic frequency was coincided with an anti-resonance frequency of 1DOF system.
Fluid inertia damper using MR fluid with a long spiral bypass pipe
An inertia damper with a long spiral bypass pipe was developed in order to obtain a series inertia effects for vibration suppression of structures in practical use. Seismic response tests using a 3-story structure were performed using a shaking table.
Vibration reduction of traffic signal pole by dynamic absorber that generates electrical power
The authors propose a damper that generates electrical power in order to not only suppress vibration and also get electrical energy when traffic signal poles are oscillated by turbulence. Harmonic vibration tests of 1/3 scale model are carried out, and effect of vibration suppression is confirmed.
Study on small seismic isolation table using coil springs
A new type of small seismic isolation table using coil springs, which has a simple construction and the capability of vibration isolation in every horizontal direction, is proposed. Seismic response tests are carried out by using a shaking table in order to confirm the effect of vibration isolating under some earthquakes.
Fluid damper that applies electric and magnetic fields to a conductive fluid and ferrite particles
The authors propose a unique type of a liquid inertia damper that utilizes electromagnetic induction effect of conductive liquid and magnetized ferrite particles. Electromagnetic induction force is derived by Fleming's left hand rule. Ferrite particles can act as a virtual orifice, resisting force will be controlled.
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