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Commercial Vehicles Thrust Rod Static and Dynamic Characteristics Analysis
Technical Paper
2016-01-2345
ISSN: 0148-7191, e-ISSN: 2688-3627
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English
Abstract
In order to study the static and dynamic characteristics of the thrust rod. Based on the multi-body dynamics theory, the dynamic model of the thrust rod and the vehicle system is established by using ADAMS software. The limit braking condition is simulated, and the limit braking load of the thrust rod is obtained. Thrust rod finite element model is established, the load calculation value and rubber test data as a finite element analysis of input conditions, using ABAQUS software to carry on the stiffness and strength analysis, analysis results show that the strength meets the requirement, and the stiffness and strength calculation result is in good agreement with the sample test, accurately describes the finite element model. The analytical method used can be used to predict the stiffness of the thrust rod. Thrust rod finite element modal analysis were carried out to obtain the thrust rod as a whole and local low order vibration mode and natural frequency, contrast the calculated values and experimental modal value error is small, in the project within the allowable range, indicating that finite element modal analysis result is accurate. The obtained results provide theoretical guidance for the optimization of the thrust rod structure.
Citation
Feng, G., Shi, W., and Zhang, H., "Commercial Vehicles Thrust Rod Static and Dynamic Characteristics Analysis," SAE Technical Paper 2016-01-2345, 2016, https://doi.org/10.4271/2016-01-2345.Also In
References
- Qian WANG Structure Optimization and Durability Research of Heavy Commercial Vehicle Thrust Rod Jilin University Press 5 1 5 2013
- Hong JIANG , Zhongshu CHENG , Cong ZHANG Optimization design on longitudinal rod of air suspension guiding structure Machinery Design &Manufacture 6 6 1 3 2010
- Peiqian BAI The Fracture Analysis of the Thrust Pole to the Rear Axle of Heavy Automobile Equipment Manufacture 9 4 144 146 2009
- Guosheng Feng , Sumei Jia , hao Lin ,and Mingjun Zheng Crack Analysis of Thrust Bar for 55 t Heavy Dump Truck Equalizing Suspension Journal of Shijiazhuang Tiedao University(Natural Science) 26 4 43 46 Dec 2013
- Junrong Zhang , Jianlin Li etal. Strength Design of Thrust Bar for 40 t Heavy- Duty Vehicle Equalizing Suspension Automobile Technology 3 19 22 2008
- Jianbo HOU Performance Analysis and Optimization of Air Suspension Guiding Mechansim Jiangsu University 2009
- Mingdong WANG . Shaofeng HAO etal. Force Analysis on Traction Bar Heavy Truck Rear Suspension Based on Road Load Spectrum Automobile Applied Technology 8 31 33 2013
- Gang JU , Haibo LI etal. Design Match of Thrust Rod in Heavy Engineering Truck Specil purpose vehivle 2 74 77 2012
- Hong JIANG , Zhongshu CHENG , Cong ZHANG Optimization design on longitudinal rod of air suspension guiding structure Machinery Design & Manufacture 6 6 1 3 2010
- Wenku SHI , Jun KE , Qian WANG etal Limit Load Analysis and Spherical Hinge Structure Optimization for V-Type Thrust Rod Journal of Xi’an Jiaotong University 47 10 133 136 2013
- Min Qin , Yi Lin Tieli , Ma , Qixin Zhu Study on Ride Comfort by Multi-body System Dynamics China Mechanical Engineering 14 5 430 433 1997
- Yanhai Xu Computer Simulation on Stochastic Road Irregularities Transactions of the Chinese Society for Agricultural Machinery 38 1 33 36 2007
- Wenbin , S. , Zhen-Hua , L. , and Jianjun , S. Finite Element Analysis of Static Elastic Characteristics of the Rubber Isolators in Automotive Dynamic Systems SAE Technical Paper 2003-01-0240 2003 10.4271/2003-01-0240