Design and experiment of concentrated flexibility-based variable camber morphing wing

The morphing wing has a significant positive effect on the aerodynamic performance of the aircraft. This paper describes a leading-edge of variable camber wing with concentrated flexibility based on the geared five-bar mechanism. The driving points of morphing skin formed by the glass fibre composite sheet were optimized to make the skin deformation smooth. A geared fivebar kinematic mechanism rigidly connected to the skin was proposed to drive the leading-edge deformation. Besides, a new kind o...     

载人航天器太阳翼多姿态输出能力建模及分析

载人航天器太阳翼在轨运行期间除正常对日定向转动外，根据飞行任务要求可能需要工作在α轴水平归零或垂直归零等特殊状态。在特殊工作模式下，太阳入射角和太阳翼的输出能力变化曲线更加复杂。建立太阳入射角与轨道角、太阳高度角、β轴转角等变量的数学模型，分析太阳入射角的变化规律，并结合光照区时长，建立太阳翼在轨输出能力的预测模型。与实际飞行数据相比较，表明该模型可较为准确地评估特殊工作模式下太阳翼的输出能力，可用于在轨整舱能量平衡分析，为飞行任务计划安排提供参考。     

翼身融合布局低速风洞试验研究

翼身融合布局(BWB)综合性能突出,是未来民用航空领域飞行器发展的必然趋势,研究BWB布局的气动特点及流动机理,对开展BWB布局设计具有重要的支撑作用。采用测力、丝线流动显示的风洞试验方法并辅以CFD方法,开展300座级BWB布局(BWB-1)低速气动特性、流动机理及通气发动机短舱影响研究。结果表明:与Early BWB、N2A布局相比,BWB-1具有更好的低速纵向气动性能,具有横向静稳定、航向静不稳定量值较小,航向增稳与控制难度较小等优点;揭示了布局的流动发展过程及具有和缓失速特性的物理原因;通气发动机短舱对提高最大升力及增加航向静稳定性有利,对横向静稳定性影响较小,但使得阻力和低头力矩增加;CFD纵向计算结果与试验基本一致,验证了CFD方法的有效性。     

A review of bird-like flapping wing with high aspect ratio

Bird-like flapping-wing vehicles with a high aspect ratio have the potential to fulfill missions given to micro air vehicles, such as high-altitude reconnaissance, surveillance, rescue, and bird group guidance, due to their good loading and long endurance capacities. Biologists and aeronautical researchers have explored the mystery of avian flight and made efforts to reproduce flapping flight in bioinspired aircraft for decades. However, the cognitive depth from theory to practice is still very limited. The mechanism of generating sufficient lift and thrust during avian flight is still not fully understood. Moving wings with unique biological structures such as feathers make modeling, simulation, experimentation, and analysis much more difficult. This paper reviews the research progress on bird-like flapping wings from flight mechanisms to modeling. Commonly used numerical computing methods are briefly compared. The aeroelastic problems are also highlighted. The results of the investigation show that a leading-edge vortex can be found during avian flight. Its induction and maintenance may have a close relationship with wing configuration, kinematics and deformation. The present models of flapping wings are mainly two-dimensional airfoils or three-dimensional single root-jointed geometric plates, which still exhibit large differences from real bird wings. Aeroelasticity is encouraged to consider the nonignorable effect on aerodynamic performance due to large-scale nonlinear deformation. Introducing appropriate flexibility can improve the peak values and efficiencies of lift and thrust, but the detailed conclusions always have strong background dependence.     

Virtual flight test of pitch and roll attitude control based on circulation control of tailless flying wing aircraft without rudders

Circulation Control(CC) realizes rudderless flight control by driving compressed air jet to generate a virtual rudder surface, which significantly improves low detectability. The layout plan of combined control rudder surface is proposed based on the tailless flying wing aircraft. The closed-loop jet actuator system and stepless rudder surface switching control strategy are used to quantitatively study the control characteristics of circulation actuator for pitch and roll attitude through 3-DOF ...     

空间站复合材料收紧装置刚度及静力试验分析

针对空间站柔性翼在展开及收拢状态，通过地面结构试验，对复合材料收紧装置试验件刚度及强度进行试验摸底。对试验项目进行设计，分别对面外刚度、面内刚度、0°工况强度、90°工况强度6个工况条件进行测试，获取了复合材料收紧装置试验件的刚度、强度数据。通过强度试验可知，Y向位移最大，X方向位移最小，且理论与实际偏差小于12%，证明复合材料收紧装置理论预测方法有效，可以为后续复合材料收紧装置结构优化及工艺制造提供有效理论支撑。