会议专题

RESEARCH ON THE LAUNCH DYNAMIC SIMULATION AND OPTIMIZATION OF AUTOMATIC GUN OF REMOTELY-OPERATED WEAPON STATIONS

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The 3-Dimensional assembly model was established based on UG, and the virtual prototype model was set up and the examination was carried on by means of collaborative simulation. The small bore automatic gun system in Remotely-Operated Weapon Stations (ROWS) was worked on the objective optimization design. By choosing the tremendous influence structural parameters of firing stability artillery as design variables, taking reduced the recoil and the gun tube height direction maximum value has carried on the optimization design as the optimized goal and used the genetic algorithm integration dynamics simulation program has carried on the optimized solution. Moreover, some suggestions used for improving firing stability were given. Conclusion of dynamics simulation and optimization can provide reference for general design and part design of ROWS.

MAO Bao-quan ZHAO Jun-yan XU Zhen-hui XU Li

Academy of Armored Force Engineering, Beijing 100072, China

国际会议

25th International Symposium on Ballistics(第25届国际弹道会议)

北京

英文

522-528

2010-05-17(万方平台首次上网日期,不代表论文的发表时间)