Simulation Analysis of Traditional and L Type Macpherson Suspension Based on ADAMS/Car

Wei Hua Zhu; Ying Shen; Jin Zhi Feng

doi:10.4028/www.scientific.net/AMR.479-481.1515

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 479-481Simulation Analysis of Traditional and L Type...

Simulation Analysis of Traditional and L Type Macpherson Suspension Based on ADAMS/Car

Abstract:

A Macpherson suspension model of a car was built based on ADAMS/ CAR. The kinematics discipline of the suspension was shown based on the general theory. Through the comparison of the simulation results of the two kinds of suspension, the L type Macpherson suspension in the wheel alignment parameter, steer angle and anti-lift/dive performance aspects is improved.

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Periodical:

Advanced Materials Research (Volumes 479-481)

Pages:

1515-1521

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.479-481.1515

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Online since:

February 2012

Authors:

Wei Hua Zhu, Ying Shen, Jin Zhi Feng

Keywords:

ADAMS/CAR, Kinematics, L-Type Macpherson Suspension, Simulation Model

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References

[1] Chen Liping, Zhang Yunqing, Ren Weiqun. Dynamic analysis of mechanical systems and ADAMS application tutorial [M].BeiJing: Tsinghua University Press, 2005.

Google Scholar

[2] Ai Weiquan, Gao Shijie, Wang Cheng, Liao Fang Liping. Design improvement and analysis of Macpherson front suspension [J]. Shanghai Automotive: 2004,8:26-28.

Google Scholar

[3] Guo Konghui. Driving Dynamics [M].ChangChun: JiLin Science and Technology Press, 1991.

Google Scholar

[4] Wang Ka. Finite Element Analysis of Macpherson Suspension' Structure [D]. Southwest Jiaotong University Master Degree Thesis, 2008,6.

Google Scholar

[5] Liu Weizhong. Vehicle Suspension K&C Characteristic Simulation Analysis and Hardpoints Optimization Based on Virtual Prototyping Technology [D]. JiLin University Master Degree Thesis, 2009,4.

Google Scholar

[6] Zhao Liwei. Analysis of Suspension Characteristic and Experimental Optimization Based on K&C Test [D]. JiLin University Master Degree Thesis, 2008,4.

Google Scholar

[7] Long Jianyun. Application of Virtual Simulation on Design of Vehicle Handling Dynamics [D]. JiangSu University Master Degree Thesis, 2009,6.

Google Scholar

[8] Ding Fei,Han Xu,Liu Guiping,etc. Hardpoints Sensitivity Analysis and Multi-objective Optimization of Suspension Guiding Mechanism [J]. Automotive Engineering, 2010,2.

Google Scholar

[9] Hazem Ali Attia Numerical Kinematic Analysis of the Standard Macpherson [J] KSME International Journal, 2003, 17(12):1961-1968.

DOI: 10.1007/bf02982435

Google Scholar

[10] J.Liu, D.J. Zhuang, F.Yu, L.M Lou. Optimized design for a Macpherson strut suspension with side load springs [J]. International Journal of Automotive Technology,2008,9(1):29-35.

DOI: 10.1007/s12239-008-0004-y

Google Scholar