Analysis of Commercial Vehicle Thrust Rod Load Simulation

Guo Yu Feng; Wen Ku Shi; Jun  Ke; Lu Lu Guo

doi:10.4028/www.scientific.net/AMM.713-715.159

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HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 713-715Analysis of Commercial Vehicle Thrust Rod Load...

Analysis of Commercial Vehicle Thrust Rod Load Simulation

Abstract:

In order to obtain the accurate thrust rod load, based on the theory of multi body dynamics, establish the complete vehicle virtual prototype model by using ADAMS software, the dynamic simulation of the thrust rod load time history. Combined with MATLAB software to build three-dimensional space pavement model with harmonic superposition method, obtaining the thrust rod load under different conditions, the simulation results show that, the vehicle loaded with uphill turn thrust rod by the load of the largest, and bear in various working upper thrust rod load than the lower load. Consistent with the experimental results, illustrate the modeling method is correct, can quickly and accurately obtain the thrust rod load.

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Periodical:

Applied Mechanics and Materials (Volumes 713-715)

Pages:

159-163

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.713-715.159

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Online since:

January 2015

Authors:

Guo Yu Feng*, Wen Ku Shi, Jun Ke, Lu Lu Guo

Keywords:

Load, Multi Body Dynamics, Thrust Rod

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References

[1] Yong kun , HOU. Structure Analysis of Suspension System V type-rod[J]. Bus Technology and Research, 2007, (4) pp.20-22.

Google Scholar

[2] Hong JIANG, Zhongshu CHENG, Cong ZHANG. Optimization design on longitudinal rod of air suspension guiding structure[J]. Machinery Design &Manufacture，2010，6(6): 1-3.

Google Scholar

[3] Honghong ZHANG, Kunshan CHEN, Jian ZHANG. Static & dynamic analysis of V-type propelling rod in air suspension system[J]. Tractor & Farm Transporter，2009，36(3): 40-42.

Google Scholar

[4] Kaiyan WANG. Study on Vibration Isolation and Optimization of Commercial Vehicle Cab Suspension[D] Changchun: Jilin University, pp.87-90.

Google Scholar

[5] Bilei WU. The Simulation Study and Optimization Design for Heavy Duty Truck Dynamics Performance[D] Changchun: Jilin University, pp.21-27.

Google Scholar

[6] D. Minen, MDI, Flexible structures and ADAMS.

Google Scholar

[7] Li Deyuan, Ye Zhiquan, Chen Yan. Load spectrum and fatigue life analysis of the blade of horizontal axis wind turbine [J]. Engineering Mechanics, 2004, 21(6) pp.118-123.

DOI: 10.1260/030952403773617463

Google Scholar