基于动态仿真的火箭弹定心部结构优化设计方法
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摘要
为寻求能够降低初始扰动的火箭弹定心部结构的合理设计参数,以固定基础不同时离轨大长细比火箭弹为研究对象,对其发射过程中定心部在导轨上的运动过程进行分析,建立弹轨相互作用的动态仿真模型以获得离轨姿态。在此基础上建立以减小离轨扰动角为目标,以定心部结构参数为设计变量,在边界和性能约束下的优化模型,经实例优化分析得到的计算结果表明,定心部结构参数的优化设计可在较大程度上改善火箭弹的离轨姿态,优化方法合理有效,对火箭弹定心部的结构设计有一定指导意义。
In order to pursue the reasonable rocket bourrelets structural design parameters which could reduce the initial disturbance, the large slenderness rocket based on the fixed base taking off the rail asynchronously was taken as the research object, and the bourrelets moving process on the rail was analyzed, and the dynamic simulation model of the interaction between the rocket and rail was established to obtain the take-off attitude, during the rocket launch process. On the above basis, the optimal model taking decrease of the perturbed angular on the initial trajectory as the goal, the bourrelets structural parameters as design variables, under the boundary and performance constrains was established. The calculation results through optimal analysis of the example showed that the bourrelets structural parameters optimal design could improve the rocket take-off attitude to a great extent. The optimal method is reasonable and effective and has certain directive significance to the structural design of rocket bourrelets.
In order to pursue the reasonable rocket bourrelets structural design parameters which could reduce the initial disturbance, the large slenderness rocket based on the fixed base taking off the rail asynchronously was taken as the research object, and the bourrelets moving process on the rail was analyzed, and the dynamic simulation model of the interaction between the rocket and rail was established to obtain the take-off attitude, during the rocket launch process. On the above basis, the optimal model taking decrease of the perturbed angular on the initial trajectory as the goal, the bourrelets structural parameters as design variables, under the boundary and performance constrains was established. The calculation results through optimal analysis of the example showed that the bourrelets structural parameters optimal design could improve the rocket take-off attitude to a great extent. The optimal method is reasonable and effective and has certain directive significance to the structural design of rocket bourrelets.
引文
[1]姚昌仁,唐国梁,宋廷伦.火箭导弹发射动力学[M].北京:北京理工大学出版社,1996:5-22.
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[6]王建军,苏增立,高昕.数学形态学边缘检测方法在火箭弹离轨参数测量中的应用[J].飞行器测控学报,2007,26(1):74-76.
[7]关宏,徐世杰.基于Fluent计算的火箭离轨姿态运动仿真与分析[J].航天控制,2012,30(3):93-98.
[8]朱保义.某多管火箭炮的动力学特性分析[J].舰船科学技术,2012,34(9):51-55.
[9]薄瑞峰,李瑞琴,沈兴全.火炮射击冲击载荷模拟装置的建模与仿真[J].机械设计与研究,2014,30(1):134-137.
[10]许兆庆,裴海龙.巡飞导弹纵向弹性动态特性分析[J].机械设计与研究,2016,32(2):175-177.
[11]秦丽,陈国光.有弹性适配器的火箭弹发射动力学研究[J].弹箭与制导学报,1997(2):12-18.
[12]齐强,李善高.海情对导弹离轨姿态的影响[J].弹箭与制导学报,2000(4):51-56.
[13]王辉,梁一兵.火箭弹发射动力学及起始扰动研究[J].航天发射技术,2012,(2):12-15.
[14]董严,付小燕,张怀宇.弹体结构变形对发射起始扰动影响研究[J].弹箭与制导学报,2016,36(6):75-75.
[15]胡桂川,刘敬花.基于CAE分析的机械结构优化设计[J].机械设计与研究,2011,27(3):73-76.
[2]李喜仁.防空导弹发射装置[M].北京:宇航出版社,1993:406-481.
[3]徐强,陆斌,张福祥.火箭弹离轨姿态的接触式测量方法[J].弹箭与制导学报,1997(3):11-14.
[4]孙伟,阳再清,胡卫东.利用激光技术测量导弹离轨速度的方法[J].战术导弹技术,2003(1):33-36.
[5]王建军,苏增立,苏建刚.火箭弹离轨参数测量中的图像处理方法[J].光学精密工程,2004,12(2):211-215.
[6]王建军,苏增立,高昕.数学形态学边缘检测方法在火箭弹离轨参数测量中的应用[J].飞行器测控学报,2007,26(1):74-76.
[7]关宏,徐世杰.基于Fluent计算的火箭离轨姿态运动仿真与分析[J].航天控制,2012,30(3):93-98.
[8]朱保义.某多管火箭炮的动力学特性分析[J].舰船科学技术,2012,34(9):51-55.
[9]薄瑞峰,李瑞琴,沈兴全.火炮射击冲击载荷模拟装置的建模与仿真[J].机械设计与研究,2014,30(1):134-137.
[10]许兆庆,裴海龙.巡飞导弹纵向弹性动态特性分析[J].机械设计与研究,2016,32(2):175-177.
[11]秦丽,陈国光.有弹性适配器的火箭弹发射动力学研究[J].弹箭与制导学报,1997(2):12-18.
[12]齐强,李善高.海情对导弹离轨姿态的影响[J].弹箭与制导学报,2000(4):51-56.
[13]王辉,梁一兵.火箭弹发射动力学及起始扰动研究[J].航天发射技术,2012,(2):12-15.
[14]董严,付小燕,张怀宇.弹体结构变形对发射起始扰动影响研究[J].弹箭与制导学报,2016,36(6):75-75.
[15]胡桂川,刘敬花.基于CAE分析的机械结构优化设计[J].机械设计与研究,2011,27(3):73-76.
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