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- Title
1299. Nonlinear dynamics modeling and analysis of disc brake squeal considering acting process of brake force.
- Authors
Xiandong Liu; Yuhan Zhao; Yingchun Shan; Tian He
- Abstract
Disc brake squeal of automobile is one of the hottest and most difficult issues concerned by automobile manufacturers and researchers. Considering the acting process of brake force, a simplified nonlinear dynamics model is developed in this paper. The nonlinear dynamics equations are set up and solved by theoretical method and numerical calculation. By studying the effects of key parameters on the system's behavior, the mechanism of brake squeal are analyzed and discussed. The results indicate that the state of system is more sensitive to the fluctuation of brake force than the variation of the negative slope of friction coefficient against the relative velocity between pad and disc. The dynamic characteristics of brake system are greatly connected with the components stiffness. The brake system may become weakly stable and easily produce brake squeal when tangential contact stiffness, normal contact stiffness and connection stiffness satisfy a certain relationship.
- Subjects
STRUCTURAL plates; NONLINEAR dynamical systems; DISC brakes; MANUFACTURING processes; FRICTION; FLUCTUATIONS (Physics); STIFFNESS (Engineering)
- Publication
Journal of Vibroengineering, 2014, Vol 16, Issue 4, p1964
- ISSN
1392-8716
- Publication type
Article