Anti-vibration and traction control of rotary sliding systems by orthogonal rotation providing transverse sliding

Rotary sliding systems such as clutches require smooth motion without any unpredicted vibrations, such as friction-induced vibration. Friction-induced vibration, which is called judder in clutches, sometimes occurs, especially during clutch engagement. To suppress the friction-induced vibration in r...

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Bibliographic Details
Published in:Tribology international 2021-07, Vol.159, p.106992, Article 106992
Main Authors: Tadokoro, Chiharu, Aso, Yuto, Nagamine, Takuo, Nakano, Ken
Format: Article
Language:English
Subjects:
Anti-vibration
Clutches
Friction
Friction-induced vibration
Rotation
Sliding
Traction control
Traction force
Vibration
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Summary:Rotary sliding systems such as clutches require smooth motion without any unpredicted vibrations, such as friction-induced vibration. Friction-induced vibration, which is called judder in clutches, sometimes occurs, especially during clutch engagement. To suppress the friction-induced vibration in rotary sliding systems, a unique method in which the direction of the friction force is forcibly changed by orthogonal rotation of a roller providing transverse sliding is proposed. The effectiveness of the method was examined experimentally using a custom-built apparatus. The results show that the orthogonal rotation suppresses the friction-induced vibration even when the friction force exhibits velocity-weakening characteristics. In addition, the effective friction force, which can be regarded as the traction force, can be controlled by varying the orthogonal rotation. •Orthogonal rotation providing transverse sliding is applied to a rotary sliding system.•The orthogonal rotation suppresses friction-induced vibrations in the rotary sliding system.•The effect is demonstrated experimentally, and its mechanism is discussed theoretically.•The orthogonal rotation also controls the traction force.•The effects arise from a change in the direction of frictional force.
ISSN:0301-679X
1879-2464
DOI:10.1016/j.triboint.2021.106992