摘要A novel ultrasonic vibration approach is introduced into a chloroprene rubber/aluminum friction couple for improving the static friction properties between rubber and metal. Compared to the test results without vibrations, the static friction force of a chloroprene rubber/aluminum couple decreases observably, leading to the ultimate displacement of rubber. The values of the static friction force and ultimate displacement can be ultimately reduced to 23.1% and 50% of those without ultrasonic vibrations, respectively.
Abstract:A novel ultrasonic vibration approach is introduced into a chloroprene rubber/aluminum friction couple for improving the static friction properties between rubber and metal. Compared to the test results without vibrations, the static friction force of a chloroprene rubber/aluminum couple decreases observably, leading to the ultimate displacement of rubber. The values of the static friction force and ultimate displacement can be ultimately reduced to 23.1% and 50% of those without ultrasonic vibrations, respectively.
(Polymers and plastics; rubber; synthetic and natural fibers; organometallic and organic materials)
引用本文:
CHENG Ting-Hai**;GAO Han;BAO Gang
. Influence of Ultrasonic Vibrations on the Static Friction Characteristics of a Rubber/Aluminum Couple[J]. 中国物理快报, 2011, 28(12): 124301-124301.
CHENG Ting-Hai**, GAO Han, BAO Gang
. Influence of Ultrasonic Vibrations on the Static Friction Characteristics of a Rubber/Aluminum Couple. Chin. Phys. Lett., 2011, 28(12): 124301-124301.
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2011, Vol. 28 
