Research and Implementation of Vibration Based on Analysis of Vehicle Ride Comfort

Jian Qiang Xiong; Ju Hua Huang; Liao Qun

doi:10.4028/www.scientific.net/AMM.189.281

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Research and Implementation of Vibration Based on Analysis of Vehicle Ride Comfort
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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vol. 189Research and Implementation of Vibration Based on...

Research and Implementation of Vibration Based on Analysis of Vehicle Ride Comfort

Abstract:

Analysis of vehicle ride comfort mainly refers to the vibration and shock environment impact on occupant comfort within certain limits, which will not make people feel comfortable, fatigue and even damage to health performance. Therefore, ride comfort is evaluated mainly based on subjective feelings of the crew, but also for the truck to maintain the performance of the goods in good condition; it is the main performance of modern high-speed car vehicle. The paper proposed a simulation modeling of the vehicle in ADAMS based on the multi-body dynamics theory; we made analysis of vehicle ride comfort on a random road. The result presents the process of building vehicle model and analysis of ride comfort and provides a basis for optimization of vehicle parameters. With this optimized design, the vibration of the vehicle has very significant performance improvements.

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Periodical:

Applied Mechanics and Materials (Volume 189)

Pages:

281-284

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.189.281

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Online since:

July 2012

Authors:

Jian Qiang Xiong, Ju Hua Huang, Liao Qun

Keywords:

Ride Analysis, Vehicle Model, Vehicle Ride Comfort, Vibration

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References

[1] Yu Fan, vehicle dynamics is extremely controlled, Beijing: People's Communications Press, (2003).

Google Scholar

[2] Liu K. H, The Classification of Microarray Data Using Evolutionary Classifier Ensemble System, IEIT Journal of Adaptive & Dynamic Computing, 2011(4), Oct 2011, pp: 34-39. DOI=10. 5813/www. ieit-web. org/IJADC/20114. 5.

DOI: 10.5813/www.ieit-web.org/ijadc/2011.4.5

Google Scholar

[3] Li Q. S, The Analysis of The Casting Steel Quality Used in Heavy Haul Train Vehicle Components, IEIT Journal of Adaptive & Dynamic Computing, 2011(4), Oct 2011, pp: 40-47. DOI=10. 5813/www. ieit-web. org/IJADC/20114. 6.

DOI: 10.5813/www.ieit-web.org/ijadc/2011.4.6

Google Scholar

[4] Zheng L.P., Hu X.M., Guo M, On the q-Szasz Operators on Two Variables, IEIT Journal of Adaptive & Dynamic Computing, 2012(1), Jan 2012, pp: 17-21. DOI=10. 5813/www. ieit-web. org/IJADC/2012. 1. 4.

DOI: 10.5813/www.ieit-web.org/ijadc/2012.1.4

Google Scholar

[5] Hu G.P., Wang H. Y, Research on Similarity between Generalized Molecular Graphs, IEIT Journal of Adaptive & Dynamic Computing, 2012(1), Jan 2012, pp: 22-27. DOI=10. 5813/www. ieit-web. org/IJADC/2012. 1. 5.

DOI: 10.5813/www.ieit-web.org/ijadc/2012.1.5

Google Scholar