Research on Mass Partition Coefficient for a Whole Car under Vertical and Lateral Road Excitations

Long Wu

doi:10.4028/www.scientific.net/AMM.29-32.177

Paper Titles

Numerical Analysis of Joint Rock Shear Properties Considering Joint Geometrical Characters
p.149

Model-Free Algorithm for Friction Torque Adaptive Identification and Compensation
p.155

Fractal Applications in Fluid Mechanics of Enhancing Oil Recovery from Low-Permeability Oil Reservoirs by Gemini Surfactant Flooding
p.163

Fractal Application in Micro Rock Mechanics of Low-Permeability Oil Reservoirs and Its Relationship with Enlarging Producing Reserves by Gemini Surfactant Flooding
p.170

Research on Mass Partition Coefficient for a Whole Car under Vertical and Lateral Road Excitations
p.177

Jamming and Wedging Analysis of Non-Rigid Assembly with Friction Contact
p.183

Neural Network Analysis of the Magnetic Bearing Systems
p.190

Effects of Mechanical Properties of Kevlar/PTFE Fabric-Reinforced Self-Lubricating Liners on Performance of Self-Lubricating Spherical Plain Bearings
p.197

Vibration Measurement and Data Analysis of a Spinning Shaft Using a Camera-Based Motion Analysis System
p.203

HomeApplied Mechanics and MaterialsApplied Mechanics and Materials Vols. 29-32Research on Mass Partition Coefficient for a Whole...

Research on Mass Partition Coefficient for a Whole Car under Vertical and Lateral Road Excitations

Abstract:

Consider the imperfectness of mass partition coefficient for a whole car in automotive theories, a vehicle physical model with fourteen degree of freedoms under vertical and lateral road excitations is adopted as research background in this paper. With the help of force analysis of sprung mass in three dimensional space and investigations on vertical, lateral, pitch, roll and yaw motions, the ration relations of dynamical coupling between a whole suspension and four quarter suspensions are deduced and achieved. The analytical results obtained in this paper develop the theoretical content of mass partition coefficient. It will be utilized to analyze, test and control among different car suspensions in the fields of vibration, handling and steering systems in future.

You might also be interested in these eBooks

Applied Mechanics And Mechanical Engineering

View Preview

Info:

Periodical:

Applied Mechanics and Materials (Volumes 29-32)

Pages:

177-182

DOI:

https://doi.org/10.4028/www.scientific.net/AMM.29-32.177

Citation:

Cite this paper

Online since:

August 2010

Authors:

Long Wu

Keywords:

Decoupling Analysis, Mass Partition Coefficient, Road Excitation, Sprung Mass, Whole Suspension

Export:

RIS, BibTeX

Price:

Permissions:

Request Permissions

References

[1] Yu Zhisheng: Automobile Theory, Mechanical Engineering Publishing Group. China. (2006), pp.211-212.

Google Scholar

[2] Jing Xiaoxiong and Zhang Lijun: Vibration Analysis of Car, Tongji University Press. China. (2002), pp.68-70.

Google Scholar

[3] Huang Zhitan, Zhang Xiaozu, Le Wei: The Automobile Dual Suspension Model and Its General Analytical Method of Riding Comfort. Chinese Journal of Jiangsu University (Natural Science Edition), vol. 24 (2003), pp.51-54.

Google Scholar

[4] Yan Tianyi, Liu Dawei, Shi Zhongxiu, etc: Simulation of Road-friendliness of Heavy Lorries with Semi-active Suspension Systems Based on Groundhook Control Strategy. Transactions of the Chinese Society of Agricultural Machinery. vol. 38 (2007).

Google Scholar

[5] Mao Wuben, Tang Xiaofei, Gengkunlong: Handling stability investigation of air spring suspension bus virtual prototype. Chinese Journal of Machinery Design & Manufacture. (2007), pp.96-98.

Google Scholar

[6] Wei Daogao, Li Keqiang, Wang Xiaofeng, etc: Study on the Match of Front Wheel Caster Angle and Stability of High-speed Cornering. Transactions of the Chinese Society of Agricultural Machinery. vol. 38 (2007), pp.19-21.

Google Scholar

[7] Liu Yueqi, Jiang Pengfei, Wang Liangmo: Modeling and simulation of ride comfort for light vehicle. Chinese Journal of Modern Manufacturing Engineering. (2006), pp.116-118.

Google Scholar

[8] Wu Long, Chen Hualing: A HIL simulation experiment design based on a hierarchical modeling method. International Journal of Vehicle Autonomous System. vol. 5 (2007), pp.158-169.

Google Scholar

[9] Wu Long and Zhang Wenjuan: Hierarchical Modeling Semi-Active Control of a Full Motorcycle Suspension with Six Degree-Freedoms. International Journal of Automotive Technology. vol. 11 (2010), pp.27-32.

DOI: 10.1007/s12239-010-0004-6

Google Scholar

[10] Wu Long, Cao Yunlu and Chen Hualing: Hierarchical modeling control of a motorcycle semi-active suspension with six degree-freedoms. Proceedings of the 2008 IEEE/ASME International Conference on Advanced Intelligent Mechatronics. (2008).

DOI: 10.1109/aim.2008.4601867

Google Scholar

[11] Wu Long, Chen Hualing: Complex stochastic wheelbase preview control and simulation of a semiactive motorcycle suspension based on hierarchical modeling method. International Journal of Automotive Technology. vol. 7 (2006), pp.749-756.

Google Scholar