基于CFD方法的机翼阵风响应研究

通过引入＂网格速度＂方法模拟阵风条件,求解非定常欧拉方程实现了不同展弦比0012平直机翼阵风响应的数值模拟。首先采用该方法对NACA0006翼型迎角阶跃型阵风的气动力响应进行了计算,计算结果与文献结果、理论值吻合良好。进一步对展弦比分别为5、10的0012平直机翼在迎角阶跃型、One-Minus-Cosine型阵风作用下的气动力响应过程进行了模拟分析。研究结果表明,当展弦比增大时,阵风作用下机翼的升力系数响应会增加,机翼翼根部位气动响应幅值大于翼尖部位响应特性。     

基于伴随方程方法的非结构网格自适应技术及应用

对基于伴随方程的网格自适应技术的基本原理进行了研究,构造并实现了基于流场伴随方程的非结构网格自适应探测器,利用局部加密网格的办法,建立了基于Euler方程的无粘伴随自适应能力。对于粘性流动问题,提出首先应用无粘计算和伴随自适应技术从基准网格自动生成具有较好网格分辨率的非结构自适应网格,然后采用层推进法自动生成粘性计算网格的求解策略。采用RAE2822二维翼型和ONERA-M6三维机翼对所建立的无粘伴随自适应方法进行了验证,并应用所提出的方法和策略,对第二届国际涡流试验项目(VFE-2)中的65°尖前缘三角翼大攻角涡流场进行了数值模拟。对比计算结果表明,所建立的非结构网格伴随自适应方法是可行的和有效的。     

基于光纤传感网络的可变体机翼应变场数值模拟及实验验证

在不同飞行姿态及飞行条件下,可变体机翼智能结构及驱动器根据外部条件及控制指令,可以实现翼体自适应动态变形,表现出良好的空气动力学性能.由于翼体结构应力场与温度场的分布和作用形式复杂多样,因此需要对结构进行多物理场耦合分析,并准确获取翼体结构应变分布的有效信息.为此,采用COMSOL Multiphysic多物理场数值分...     

多控制面飞行器结构与配平鲁棒气动弹性优化方法

基于遗传算法,提出了一种考虑多控制面飞行器结构参数和配平关系中的不确定性的鲁棒气动弹性优化方法,并在一个带有主动气动弹性机翼(AAW)的复杂小展弦比飞机的结构和控制面传动比的鲁棒设计中得到了应用.以非概率形式来衡量设计变量的不确定性变化,采用单目标函数形式,并引入一个反映目标函数相对变化的额外约束来描述鲁棒优化问题.在...     

削尖三角翼涡破裂前后的气动弹性特性对比研究

大迎角气动弹性分析是现代飞行器设计中非常引人瞩目并且复杂的研究课题.采用Navier-Stokes方程求解非定常流场,耦合结构运动方程,在状态空间内实现了70°削尖三角翼涡破裂前后的气动弹性时域模拟.研究显示,前缘分离涡破裂后,流动的非定常脉动特性非常明显,这种非定常效应对机翼气动弹性特性的影响不可忽略.涡破裂前,气动...     

Nonlinear flutter wind tunnel test and numerical analysis of folding fins with freeplay nonlinearities

The flutter characteristics of folding control fins with freeplay are investigated by numerical simulation and flutter wind tunnel tests. Based on the characteristics of the structures, fins with different freeplay angles are designed. For a 0° angle of attack, wind tunnel tests of these fins are conducted, and vibration is observed by accelerometers and a high-speed camera. By the expansion of the connected relationships, the governing equations of fit for the nonlinear aeroelastic analysis are established by the free-interface component mode synthesis method. Based on the results of the wind tunnel tests, the flutter characteristics of fins with different freeplay angles are analyzed. The results show that the vibration divergent speed is increased, and the divergent speed is higher than the flutter speed of the nominal linear system. The vibration divergent speed is increased along with an increase in the freeplay angle. The developed free-interface component mode synthesis method could be used to establish governing equations and to analyze the characteristics of nonlinear aeroelastic systems. The results of the numerical simulations and the wind tunnel tests indicate the same trends and critical velocities.     

Experimental investigation of influence of strake wings on self-induced roll motion at high angles of attack

The modern high performance air vehicles are required to have extreme maneuverability,which includes the ability of controlled maneuvers at high angle of attack. However, the nonlinear and unsteady aerodynamic phenomena, such as flow separation, vortices interaction, and vortices breaking down, will occur during the flight at high angle of attack, which could induce the uncommanded motions for the air vehicles. For the high maneuverable and agile air missile, the nonlinear roll motions would occur at the high angle of attack. The present work is focused on the selfinduced nonlinear roll motion for a missile configuration and discusses the influence of the strake wings on the roll motion according to the results from free-to-roll test and PIV measurement using the models assembled with different strake wings at a = 60°. The free-to-roll results show that the model with whole strake wings(baseline), the model assembled with three strake wings(Case A)and the model assembled with two opposite strake wings(Case C) experience the spinning, while the model assembled with two adjacent strake wings(Case B), the model assembled with one strake wing(Case D) and the model with no strake wing(Case E) trim or slightly vibrate at a certain "×"rolling angle, which mean that the rolling stability can be improved by dismantling certain strake wings. The flow field results from PIV measurement show that the leeward asymmetric vortices are induced by the windward strake wings. The vortices would interact the strake wings and induce crossflow on the downstream fins to degrade the rolling stability of the model. This could be the main reason for the self-induced roll motion of the model at a = 60°.     

平面形状对MAV气动特性的影响

通过风洞测力实验研究了平面形状(后掠角)对展长/根弦长之比为1.0的机翼的气动特性的影响,实验结果表明,模型后掠角在很大程度上影响小展弦比机翼的气动特性,当模型后掠角Λ≤35°时,能增大模型的最大升力系数和失速迎角,推迟失速;当模型后掠角Λ=56°~64°时,能得到较好的升力曲线,改善机翼的失速特性。此外,实验结果表明模型前缘背风面倒角与迎风面倒角相比,有效地提高了模型的最大升阻比和失速后的升力系数。     

防空导弹翼面弹性支承边界参数识别

利用系统可测自由度上获得的不完全模态来识别尾翼的边界支承参数。直接由特征方程出发求解边界的未知位移和内力，借此计算边界动刚度，同时对带有一定误差的已知试验模态进行叠代修正，然后通过最小二乘法求解边界的支承刚度和附加质量。本文方法简捷。精度和效率都较高。在防空导弹及其他相关领域都有一定的应用价值。     

基于随机测量点的机翼精加工位姿计算方法

在机翼精加工过程中,需要对机翼的位姿进行计算,以指导其调整。通过对翼面水平测量原理的分析,提出一种基于随机测量点的机翼精加工位姿计算方法。首先,以翼面水平测量数据为基础,采用以最小二乘法为目标函数的迭代最近点算法,求解出测量点在翼面设计模型上的匹配点,形成位姿计算所需的2个点集。然后,运用Levenberg-Marquardt算法计算出这2个点集间的变换关系,实现位姿参数的求解。最后,为减少测量点误差对位姿计算的影响,给出了测量点精度补偿方法。仿真算例表明,该方法具有较高的计算精度,能够满足实际工程需求。