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机构地区:[1]中国船舶重工集团公司第七一三研究所,郑州450015
出 处:《兵工自动化》2017年第10期66-70,共5页Ordnance Industry Automation
基 金:国防基础科研(A0820132003)资助
摘 要:为改善内能源转管炮动态响应性能,以某高射频小口径舰炮为对象,对其动态响应进行优化设计。建立转管炮虚拟样机模型,对身管进行柔性化处理,对全炮进行动力学仿真,计算得到转管炮动力响应特性曲线,基于Isight软件平台,对仿真模型进行了多目标优化,对基于优化后的火炮的动态响应结果进行了射击密集度仿真。研究结果表明:优化后炮口最大纵向振动位移减小1.43%,最大后坐阻力减小7.23%,后坐最大位移减小5.63%,射击密集度得到了改善。该研究为提高内能源转管炮射击精度和自动机的结构优化提供了参考。For improving internal energy Gatling gun dynamic response performance, taking certain type high RF smallcaliber ship borne artillery as example, carry out optimal design for dynamic response, establish Gatling gun virtualprototype model, carry out flexible processing for barrel and dynamic simulation for overall gun, and acquire Gatling gundynamic response feature curve by calculation. Based on Isight software platform, carry out multi-target optimization ofsimulation model, carry out firing dispersion simulation based on optimal artillery dynamic response results. The researchresults show that the longitudinal vibration displacement of the muzzle was reduced by 1.43%, the maximum recoilresistance was reduced by 7.23%, and the maximum displacement of the recoil was reduced by 5.63%, the shootingintensity had been improved. This research can provide a reference for improving the firing accuracy of the self-energyGatling gun and the structure optimization of the self-energy Gatling gun.
分 类 号:TJ391[兵器科学与技术—火炮、自动武器与弹药工程]
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