Solutions of active vibration suppression associated with web structures on face gear drives

Zhengminqing Li1, Hao Wang2, Rupeng Zhu3, Wei Ye4

Nanjing University of Aeronautics and Astronautics, Nanjing, China

1Corresponding author

E-mail: 1lzmq_cmee@nuaa.edu.cn, 2hw1211@nuaa.edu.cn, 3rpzhu@nuaa.edu.cn, 4yewei301702@nuaa.edu.cn

Received 21 August 2017; accepted 28 August 2017

DOI https://doi.org/10.21595/vp.2017.19009

 

Abstract. Vibration suppression of face gear drives is always one of study focuses of face gear dynamics. Thus, in the study, a solution of active vibration suppression associated with web structures on face gear drives is proposed, and an example case of face gear drives associated with the proposed solution is simulated. The results indicate effects of the proposed solution on face gear dynamic behaviors are significant. These contributions would benefit to improve face gear vibration suppression studies.

Keywords: face gear drives, gear dynamics, active vibration suppression, web structures.

References

[1]        Hu Z. H., Tang J. Y., Chen S. Y., Lei D. C. Effect of mesh stiffness on the dynamic response of face gear transmission system. Journal of Mechanical Design, Vol. 135, Issue 7, 2013, p. 1‑7.

[2]        Wang Z., Chen Q., Lin J. C., Yang L. L. Study of the dynamic behavior of face gear transmission system. Applied Mechanics and Materials, Vol. 268, 2013, p. 1063‑1066.

[3]        Jin G. H., Zhu R. P., Bao H. Y. Nonlinear dynamical characteristics of face gear transmission system. Journal Central South University, Vol. 5, Issue 41, 2010, p. 1807‑1813, (in Chinese).

[4]        Yang Z., Wang S. M., Fan Y. S., Liu H. X. Vibration characteristics of face-gear transmission system with parametric excitation. Journal of Chongqing University, Vol. 35, Issue 1, 2011, p. 26‑35, (in Chinese).

[5]        Yang Z., Wang S. M., Fan Y. S., Liu Bifurcation H. X. characteristics of face-gear transmission system. Journal of Harbin Institute of Technology, Vol. 3, Issue 43, 2011, p. 107‑110, (in Chinese).

[6]        Li X. Z., Zhu R. P., Li Z. M. Q., Jin G. H. Influence of frictional coefficient on vibration characteristic of face gear transmission system. Journal of Vibration Engineering, Vol. 27, Issue 4, 2014, p. 584‑588, (in Chinese).

[7]        Zhang L., Zhu R. P., Li Z. M. Q. Research on natural frequency of torsional vibration of torque-split face gear transmission system. Jiangsu Machine Building and Automation, Vol. 41, Issue 5, 2012, p. 21‑24, (in Chinese).

[8]        Li Zhengminqing, Liu Shuang, Zhu Rupeng, Xiu Xiaodong Investigations of dynamic behaviors of face gear drives associated with pinion dedendum fatigue cracks. Shock and Vibration, 2016, https://doi.org/10.1155/2016/3173860.

[9]        Zhu X. L., E. Z. K. Analysis of Load Capacity of Gears. Higher Education Press, Beijing, 1992, (in Chinese).

Cite this article

Li Zhengminqing, Wang Hao, Zhu Rupeng, Ye Wei Solutions of active vibration suppression associated with web structures on face gear drives. Vibroengineering PROCEDIA, Vol. 14, 2017, p. 146‑150.

 

JVE International Ltd. Vibroengineering PROCEDIA. Oct 2017, Vol. 14. ISSN 2345-0533