空气动力学学报
空氣動力學學報
공기동역학학보
ACTA AERODYNAMICA SINICA
2015年
2期
192-197
,共6页
刘刚%肖中云%王建涛%刘钒
劉剛%肖中雲%王建濤%劉釩
류강%초중운%왕건도%류범
刚体动力学%约束%陀螺%机载导弹%数值计算
剛體動力學%約束%陀螺%機載導彈%數值計算
강체동역학%약속%타라%궤재도탄%수치계산
rigid body dynamics%constraints%gyro%airborne missile%numerical simulation
采用计算流体动力学和刚体动力学模型耦合求解的方法,对导轨发射的机载导弹分离过程进行了模拟,导弹运动过程包含了双(多)吊挂约束、单吊挂约束和自由运动三个阶段,为了模拟单吊挂约束状态下导弹的运动,在刚体六自由度运动方程基础上,发展了约束形式的刚体动力学模型,通过计算刚体自由转动(欧拉陀螺)和旋转刚体的进动(拉格朗日陀螺)两个算例,得到与理论解吻合的计算结果,验证了运动模型的正确性。在此基础上,对某机载导弹的发射过程进行了数值模拟,模拟中根据后挂点所处不同位置分别采用直线运动、单铰链约束和六自由度运动模型。通过数值仿真,获取了发射过程的运动轨迹和姿态变化,结果表明中等攻角下翼吊导弹受到横向洗流的作用,产生较大的侧向力和偏航力矩,导致导弹发生横滚产生弹架干涉。单吊挂约束下导弹俯仰运动受到法向气动力、重力以及法向过载的作用,严苛条件下可能引起弹架干涉。
採用計算流體動力學和剛體動力學模型耦閤求解的方法,對導軌髮射的機載導彈分離過程進行瞭模擬,導彈運動過程包含瞭雙(多)弔掛約束、單弔掛約束和自由運動三箇階段,為瞭模擬單弔掛約束狀態下導彈的運動,在剛體六自由度運動方程基礎上,髮展瞭約束形式的剛體動力學模型,通過計算剛體自由轉動(歐拉陀螺)和鏇轉剛體的進動(拉格朗日陀螺)兩箇算例,得到與理論解吻閤的計算結果,驗證瞭運動模型的正確性。在此基礎上,對某機載導彈的髮射過程進行瞭數值模擬,模擬中根據後掛點所處不同位置分彆採用直線運動、單鉸鏈約束和六自由度運動模型。通過數值倣真,穫取瞭髮射過程的運動軌跡和姿態變化,結果錶明中等攻角下翼弔導彈受到橫嚮洗流的作用,產生較大的側嚮力和偏航力矩,導緻導彈髮生橫滾產生彈架榦涉。單弔掛約束下導彈俯仰運動受到法嚮氣動力、重力以及法嚮過載的作用,嚴苛條件下可能引起彈架榦涉。
채용계산류체동역학화강체동역학모형우합구해적방법,대도궤발사적궤재도탄분리과정진행료모의,도탄운동과정포함료쌍(다)조괘약속、단조괘약속화자유운동삼개계단,위료모의단조괘약속상태하도탄적운동,재강체륙자유도운동방정기출상,발전료약속형식적강체동역학모형,통과계산강체자유전동(구랍타라)화선전강체적진동(랍격랑일타라)량개산례,득도여이론해문합적계산결과,험증료운동모형적정학성。재차기출상,대모궤재도탄적발사과정진행료수치모의,모의중근거후괘점소처불동위치분별채용직선운동、단교련약속화륙자유도운동모형。통과수치방진,획취료발사과정적운동궤적화자태변화,결과표명중등공각하익조도탄수도횡향세류적작용,산생교대적측향력화편항력구,도치도탄발생횡곤산생탄가간섭。단조괘약속하도탄부앙운동수도법향기동력、중력이급법향과재적작용,엄가조건하가능인기탄가간섭。
Computational fluid dynamics and rigid body dynamics models are solved in a loosely coupled way to simulate a missile launched from an aircraft by rail,the motions consist of three phases,which correspond to two or multi—hanger phase,single hanger phase and free mo—tion phase.In order to simulate the motion of missiles subjected to single hanger constraint,the constrained dynamics equations are derivated from six degree of freedom motion equations,the model is verified by simulating free rotation of rigid body (Euler gyro)and procession of rotation—al rigid body(Lagrange gyro),which shows good agreement with the theoretical solutions.After that,the launching process of a missile from an aircraft is numerically simulated,in which con—strained and non—constrained rigid—body dynamics models are switched corresponding to hanger’s position.By numerical simulation,trajectories and attitudes profile of the missile are obtained. The results show that the missile is impacted by lateral wash flows at moderate angles of attack, resulting in large lateral force and yawing moment,causing the missile to roll rapidly and produce missile—frame interference further.In the phase of single hanger constraint,the missile tends to pitch due to normal aerodynamic force,gravity,normal overload and so on,which may lead to interference with rail launcher on harsh conditions.
