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航空学报 2013

反TBM拦截弹杀伤增强器综合设计模型及其应用

DOI: 10.7527/S1000-6893.2013.0177, PP. 2029-2037

杜政,王朝志

Keywords: 反TBM拦截弹,杀伤增强器,最优合成迎角,可用过载,制导精度

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Abstract:

针对反战术弹道式导弹(TBM)拦截弹杀伤增强器设计方法中存在的不足,提出了拦截平面内最优合成迎角数学模型,在此基础上建立了拦截弹杀伤增强器综合设计模型。该模型以杀伤增强器参数为输入量,可在设计拦截弹时对其进行可用过载估计与制导精度限制,并通过最优合成迎角控制来近一步增强拦截弹对TBM的杀伤性能。以PAC-3拦截弹及某典型TBM弹头为例进行仿真验证,结果表明采用综合设计模型后PAC-3杀伤概率平均高于原弹约7%,使用该模型对PAC-3杀伤增强器进行优化,优化结果明显提高了PAC-3拦截弹的作战性能。

References

[1]	Xu B. "Patriot" series of surface to air missiles. Land-Based Air Defense Weapons, 2004(3): 19-24. (in Chinese) 徐斌. "爱国者"系列地空导弹. 地面防空武器, 2004(3): 19-24.
[2]	Herman R D, Butler J H. Subsystems for the extended range interceptor missile. AIAA-1992-2750, 1992.
[3]	Ji L C, Song G B. HTK and fragmentation in the anti-TBM system technology. Winged Missiles Journal, 2008(1): 33-36. (in Chinese) 吉礼超, 宋贵宝. 反TBM系统中HTK与破片杀伤技术比较分析. 飞航导弹, 2008(1): 33-36.
[4]	Freedman A L, Gray R C. The implications of missile defense for northeast asia. Orbis, 2004, 48(2): 335-350.
[5]	Mchenry M R, Levin M A. Estimating optimization hit-to-kill vehicle configurations for lethality against submunition payloads. AIAA-1998-0831, 1998.
[6]	Qin R W. Impact damage probability calculation and simulation research to TBM by LE in terminal interception. Beijing: School of Astronautics, Beihang University, 2003. (in Chinese) 秦如雯. 钨杆杀伤增强器动能拦截TBM杀伤概率计算与仿真研究. 北京: 北京航空航天大学宇航学院, 2003.
[7]	Ding J C, Wang C Z, Chen W C, et. al. Optimization design of ke-rod warhead in anti-TBM missile. Tactical Missile Technology, 2005(4): 7-11. (in Chinese) 丁健超, 王朝志, 陈万春, 等. 反TBM导弹动能杆战斗部优化设计. 战术导弹技术, 2005, 4: 7-11.
[8]	Jin Y H, Yu B S, Kang P. Optimal research for TBM defense interceptor which object is optimum firing mass. Modern Defence Technology, 1999, 27(4): 15-24. (in Chinese) 金玉华, 于本水, 康鹏. 以发射质量最小为优化目标的反TBM拦截器优化研究. 现代防御技术,1999,27(4):15-24.
[9]	Ding J C. Collision destroy effectiveness analysis for antiaircraft missiles at terminal ballistic. Beihang: School of Astronautics, Beihang University, 2005. (in Chinese) 丁健超. 防空导弹在终点弹道的碰撞拦截杀伤效能分析. 北京: 北京航空航天大学宇航学院, 2005.
[10]	Meng H L, Sun X L, Liu D Z, et al. Simulation of the process of ke rod deployed by explosion and it's disperse characteristic. Journal of Projectiles, Rockets, Missiles and Guidance, 2005, 25(4): 51-53. (in Chinese) 孟会林, 孙新利, 刘代志, 等. 中心式动能杆战斗部爆炸驱动杆条过程及其抛撒规律数值仿真. 弹箭与制导学报, 2005, 25(4): 51-53.
[11]	Ma X Q, Han F. High-speed collision dynamics. Beijing: National Defense Industrial Press, 1998: 235-240. (in Chinese) 马晓青, 韩峰. 高速碰撞动力学. 北京:国防工业出版社,1998:235-240.
[12]	Lloyd R M. Conventional warhead systems physics and engineering design. Virginia: American Institute of Aeronautics and Astronautics, 1998: 364-409.
[13]	Jiang H. Analysis and reasearch of the combat effectiveness for the air defense missile intercepting ASM. Beijing: School of Astronautics, Beihang University, 2008. (in Chinese) 姜欢. 反ASM防空导弹做咱效能分析研究. 北京: 北京航空航天大学宇航学院, 2008.
[14]	Zarchan P. Tactical and strategic missile guidance. Virginia: American Institute of Aeronautics and Astronautics, 1997: 507-515.
[15]	Chen Y, Dong C Y, Wang Q, et al. Reaction jet and aerodynamics compound control missile autopilot design based on adaptive fuzzy sliding mode control via backstepping. Acta Aeronautica et Astronautica Sinica, 2007, 28(Z1): 1681-1685. (in Chinese) 陈宇, 董朝阳, 王青, 等. 基于自适应模糊滑模退步控制的直接力/气动力复合控制导弹自动驾驶仪设计. 航空学报, 2007, 28(增刊):1681-1685.
[16]	Cao L J, Zhang S X, Liu Y N, et. al. Flight controller sesign using adaptive parameter approximation block backstepping. Acta Aeronautica et Astronautica Sinica, 2011, 32(12): 2259-2267. (in Chinese) 曹立佳, 张胜修, 刘毅男, 等. 带有自适应参数近似的块控反步飞行控制器设计. 航空学报, 2011, 32(12): 2259-2267.
[17]	Li T J. Effectiveness analysis for missile weapon systems. Beijing: National Defense Industrial Press, 2000: 188-210.(in Chinese) 李廷杰. 导弹武器系统的效能及其分析. 北京: 国防工业出版社, 2000: 188-210.
[18]	Lin D H, Wu Q, Zhang H Z, et al. Research of oblique penetration by rod projectile. Explosion and Shock Waves, 1996, 16(2): 158-165. (in Chinese) 李大红, 吴强, 张汉钊, 等. 钨杆弹斜侵彻研究. 爆炸与冲击, 1996, 16(2): 158-165.
[19]	Zhao Y J, Jing H, Huang C Q. The study on caleulating method of kill probability for the missile with the discrete rod warhead. Journal of Projectiles Rockets Missiles and Guidance, 2003, 23(2): 37-42. (in Chinese) 赵英杰, 景航, 黄长强. 离散杆式战斗部类导弹杀伤概率研究. 弹箭与制导学报, 2003, 23(2): 37-42.
[20]	Wang T, Zhou J. Modeling and simulation research of PAC-3 interceptor. Journal of System Simulation, 2007, 19(20): 4642-4645. (in Chinese) 王婷, 周军. PAC-3拦截弹建模与仿真研究. 系统仿真学报, 2007, 19(20): 4642-4645.
[21]	Du Z, Wang C Z. Main parameters optimization of missile based on a new optimization algorithm. 2011 Annual Symposium on Chinese Flight Mechanics. Beijing: Professional Committee of Chinese Society of Astronautics Aerodynamic and Flight Mechanics, 2011: 345-353. (in Chinese) 杜政, 王朝志. 基于新型优化算法的导弹主要参数优化设计. 2011年中国飞行力学学术年会. 北京:中国宇航学会空气动力与飞行力学专业委员会, 2011: 345-353.

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