Frequency Response Analysis of Damped Dual Mass Flywheel

Rong Zeng; Zheng Feng Jiang; Xing Wan

doi:10.4028/www.scientific.net/AMM.724.271

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 724Frequency Response Analysis of Damped Dual Mass...

Frequency Response Analysis of Damped Dual Mass Flywheel

Abstract:

s:Aiming at circumferential arc spring dual mass flywheel (CSDMF), this paper carries out analysis on the piecewise linear model and calculates the frequency response of damped model under sinusoidal excitation. Being combined with the calculate results, the research respectively analyzes the value of inertia ratio, torsional stiffness and damping parameters. The analysis results show that the greater the damping, inertia ratio of primary and secondary flywheels are, the torsional stiffness, the more obvious vibration damping of the dual mass flywheel would be. To meet the vibration damping requirements, the detail design of the three parameters need to be combined with power train and the torsion characteristic of CSDMF.

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Periodical:

Applied Mechanics and Materials (Volume 724)

Pages:

271-274

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.724.271

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Online since:

January 2015

Authors:

Rong Zeng, Zheng Feng Jiang, Xing Wan

Keywords:

Damping, Dual Mass Flywheel, Response, Value

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References

[1] J. Zhengfeng, C. Lei: Study on the Design Method of Circumferential Arc Spring Dual Mass Flywheel. Chinese Internal Combustion Engine Engineering, Vol. 30(2009), p.99~105.

Google Scholar

[2] C. Demin, H. Zheng, S. Wei: Torsion Stiffness Calculation and Optimization Design of Arc Helix Spring of DMF. China Mechanical Engineering, Vol. 21(2010), p.1676~1682.

Google Scholar

[3] C Tao, L Zhenhua, S Chengqian: Analysis method for Elestic Characteristics of Arc Spring. China Mechanical Engineering, Vol. 16(2006), p.493~495.

Google Scholar

[4] U. Schaper, O. Sawodny, T. Mahl, et al: Modeling and Torque Estimation of an Automative Dual Mass Flywheel. 2009 American Control Conference(2009), p.1208~1212.

DOI: 10.1109/acc.2009.5160136

Google Scholar

[5] Z. Guangming, J. Zhengfeng, C. Lei, et al: Research and Experimental Verification on Daming Characteristics of Circunmferential Arc Spring Dual Mass Flywheel. Chinese Internal Combustion Engine Engineering, Vol. 33 (2012), p.81~86.

Google Scholar

[6] S. Rao Singiresu: Mechanical Vibrations, fourth ed., Pearson Education, (2012).

Google Scholar