鸭式布局卷弧尾翼导弹气动特性数值分析

NUMERICAL ANALYSIS OF AERODYNAMIC CHARACTERISTICS OF CANARD WRAPAROUND FINS MISSILE

  • 摘要: 本文主要研究鸭式布局卷弧尾翼导弹的气动特性。采用格心有限体积法与滑移网格技术对鸭式布局卷弧尾翼导弹进行了定常与非定常数值模拟。结果表明:在相同滚转舵偏角度下,正负打舵时尾翼上的滚转力矩大小不等;在相同滚转舵偏角度下,正向打舵比负向打舵尾翼诱导的反操纵力矩大;同方向打舵时舵偏角越大反操纵影响程度越小。导弹旋转时马格努斯力系数随滚转角呈周期性变化,不同旋转方向时马格努斯力的波动方向相反,且反转的马格努斯力小于正转;当尾翼与弹体固联旋转时马格努斯力主要由后体提供,且前后体马格努斯力方向相反;当尾翼与弹体解耦旋转时,马格努斯力比固联旋转时更小。以上结论可对导弹控制系统设计提供依据。

     

    Abstract: In order to investigate the aerodynamic characteristics of a canard missile with wraparound fins, steady-state and unsteady-state numerical simulations were conducted using the grid-centered finite volume method and slip-grid technique. The results show that the roll moments on the tail are not equal under the same roll deflection angle in opposite directions; under the same roll deflection angle,the positive deflection of the canard lets tail produces a larger anti-control moment than the negative deflection; when the deflection in same direction, the anti-control effectiveness decreases as the deflection angle increases. When the missile rotates, the Magnus force coefficient varies periodically with the roll angle. The fluctuation direction of the Magnus force is opposite for different rotation directions, and the Magnus force of reverse rotation is smaller than forward rotation. When the tail is rigidly coupled and rotating with the missile body, the Magnus force is mainly provided by the afterbody, and the Magnus forces on the fore and after bodies have opposite directions. When the tail is decoupled from the missile body, the Magnus force is smaller compared to the case of rigid coupling rotation. These conclusions can provide a basis for the design of missile control systems.

     

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