Application of bouc-wen model to frequency-dependen nonlinear hysteretic friction damper Dong-Woo Kang/ Sung-Woon Jung/ Gyung-Hun Nho/ Jin-Kyu Ok/ Wan-Suk Yoo
The Journal of Mechanical Science and Technology, vol. 24, no. 6, pp.1311-1317, 2010
Abstract : To reduce vibration and noise, various dampers have been applied to many devices such as vehicle suspensions and washing machines.
In washing machines, lubricated friction dampers, usually of very simple structure, are installed. Despite the simple structure of these
dampers, their dynamic behaviors do not lend themselves to easy mathematical model development, owing to nonlinear characteristics
such as hysteresis, viscous elasticity, and other complications. To determine the characteristics of a lubricated friction damper, physical
tests with various amplitudes and frequencies were carried out. The complicated lubricated friction damper curves obtained through the
physical tests showed hysteretic behavior. In the present study, an analytical model of a hysteretic friction damper was developed, after
which optimum parameter values and the maximum friction force were evaluated using an optimization technique. For description of the
friction force as changed by the excitation amplitudes and frequencies, a relationship between the sponge velocity and the STV (stick
transition velocity) was considered. To describe the hysteretic behavior of the friction damper, a Bouc-Wen model was adopted.
Keyword :
Friction damper; Physical test; STV (stick transition velocity); Bouc-Wen model; Washing machine
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