Title of article
Dynamic Modeling and Chaotic Analysis of Gear Transmission System in a Braiding Machine with or without Random Perturbation
Author/Authors
Yujing, Zhang College of Mechanical Engineering - Donghua University, China , Zhuo, Meng College of Mechanical Engineering - Donghua University, China , Yize, Sun College of Mechanical Engineering - Donghua University, China
Pages
18
From page
1
To page
18
Abstract
This paper is aimed at analyzing the dynamic behavior of the gear transmission system in a braiding machine. In order to observe the nonlinear phenomenon and reveal the time-varying gear meshing mechanism, a mathematical model with five degrees-of-freedom gear system under internal and external random disturbance of gear system is established. With this model, bifurcation diagrams, Poincare maps, phase diagrams, power spectrum, time-process diagrams, and Lyapunov exponents are used to identify the chaotic status. Meanwhile, by these analytical methods, spur gear pair with or without random perturbation are compared. The numerical results suggest that the vibration behavior of the model is consistent with that of Clifford system. The chaotic system associated parameters are picked out, which can be helpful to the design and control of braiding machines.
Keywords
Dynamic Modeling , Chaotic Analysis , Braiding Machine , Gear Transmission System , without Random Perturbation
Journal title
Shock and Vibration
Serial Year
2016
Full Text URL
Record number
2617177
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