Simulation and Research on Safety Testing of Driving Artillery

Xue Jun Chen; Fei Fei Xiang; Shi Fu Xie; Hong Wei Lou

doi:10.4028/www.scientific.net/AMR.753-755.2273

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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 753-755Simulation and Research on Safety Testing of...

Simulation and Research on Safety Testing of Driving Artillery

Abstract:

As it is dangerous to implement a physical test for studying the influence of internal supporter tire to the performance of artillery towing, we carried out virtual experiments to study its dynamic behavior based on PRO/E. Based on the force analysis of tire structure, the calculation of forces are specified. We constructed the finite element model of tire and achieved its diagram of stress distribution in the later simulation. With the software Recurdyn, we analyzed the marching behavior of internal supporter tire at different speeds, and compared with that of conventional pneumatic tire. The experiment result shows that as the internal supporter tire has a reasonable structure, its stress is well-distributed. The sidepartial acceleration can be apparently affected by speed. The internal supporter tire has a better performance than conventional pneumatic tire. Our study lays a theoretical foundation for the application of the internal supporter tire.

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Periodical:

Advanced Materials Research (Volumes 753-755)

Pages:

2273-2276

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.753-755.2273

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Online since:

August 2013

Authors:

Xue Jun Chen, Fei Fei Xiang, Shi Fu Xie, Hong Wei Lou

Keywords:

Analysis, Internal Supported Tire, Multi-Body Dynamics Simulation

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References

[1] YANG Xin, TONG Jin, CHEN Dong-hui, etal. Finite Element Analysis on Three dimensional Structural of Run flat T-ire Insert[J]. 2008（3）：10-13.

Google Scholar

[2] NI Tian-xin, ZUO Shu-guang, WU Pei, et al. Simulation and Visualized Measuring of the Contact Area of a Steady-rolling Tire[J]. Chinese Journal of Automotive Engineering, 2011(9): 407-414.

Google Scholar

[3] FANG Jie, WU Guang-qiang. Virtual Proving Ground of Tire Mechanical Characteristics[J]. Computer Simulation, 2007: 243-247.

Google Scholar

[4] SHENG Long-bo, MA Ji-sheng, LI Tao, et al. Emergency Braking Dynamic Simulation Analysis of a Certain Tracked Vehic-le[J]. Journal of Gun Launch & Control, 2012(3): 14-17.

Google Scholar

[5] JIA Jin-feng, ZHANG Jin-qiu, BI Zhan-dong, et al. Ride Comfort Evaluation and Experiment of a Wheeled Armored Vehicle on Offroad Terrain[J]. Vehicle & Power Technology, 2011(2): 46-51.

Google Scholar

[6] XIANG Tao-bo, LIU Zhong-fa, ZHAO Jun, et al. Modeling and Simulation on Ride Comfort of a Self-propelled Gun[J]. Machinery Design & Manufacture, 2011(10): 220-222.

Google Scholar