静止轨道高精度遥感卫星在轨冲击监测与定位

针对空间环境下航天器偶发的冲击影响敏感载荷性能的问题，提出了利用振动测量系统实时连续监测载荷安装位置附近的动力学环境的方法，通过分析各测点的冲击时域响应大小及冲击发生先后顺序，初步确定冲击发生的位置。结果表明:冲击的发生以天为周期，一天之中冲击发生的频次和强度与航天器所处轨道位置强相关，且存在2个明显的冲击高发时段。冲击很可能发生于载荷底板附近，可在地面试验中进行精确定位和完善设计。上述研究实现了在轨冲击现象的定量分析及冲击源的定位，将提升现有在轨动力学分析的能力，指导后续航天器设计，降低冲击现象对敏感载荷性能的影响。     

Large eddy simulations of a turbulent mixing layer periodically excited with fundamental and third harmonic frequency

A better understanding of the mixing behavior of excited turbulent mixing layers is critical to a number of aerospace applications. Previous studies of excited turbulent mixing layers focused on single frequency excitation or the excitation with fundamental and its second harmonic frequency. There is a lack of detailed studies on applying low and higher frequency excitation. In this study, we have performed large-eddy simulations of periodically excited turbulent mixing layers. The excitation consists of a fundamental frequency and its third harmonic. We have used phase-averaging to identify the vortex structure and strength in the mixing layer, and we have studied the vortex dynamics. Two different vortex paring mechanisms are observed depending on the phase shift between the two excitation frequencies. The influence of these two mechanisms on the mixing of a passive scalar is also studied. It is found that exciting the mixing layer with these low and high frequencies has initially an adverse influence on the mixing process; however, it improves the mixing further downstream of the splitter plate with the excitation using a phase shift of $\mathrm{\Delta }\varphi =\mathrm{\pi }$ showing the best mixing performance. The present works shed lights on the fundamental vortex dynamics, and has great potential for aeronautical, automotive and combustion engineering applications.     

低功率霍尔推力器束流发散和推力矢量偏心特性研究

为了准确掌握不同工况下混合励磁模式低功率霍尔推力器束流发散和推力矢量偏心特性，凭借自主设计和改进的一套快速评估霍尔推力器束流发散角和推力矢量偏角原位集成诊断装置，系统研究了推力器在不同阳极质量流率、磁场、电场下束流分布和推力矢量偏心特性的变化规律。结果表明，束流发散角随阳极质量流率（0.65mg/s~0.95mg/s）和磁场强度（112Gs~142Gs）的变化呈现负相关的特性。当阳极质量流率0.95mg/s，束流发散角降到29.1°（＜30°）。推力矢量偏角随阳极质量流率和磁场强度的变化分别存在极大值（1.19°）和极小值（0.91°）。束流发散角、推力矢量偏角在250V~330V放电电压范围内基本保持不变。     

带落角落速约束的导弹虚拟期望落角末制导律

为解决导弹末制导阶段同时考虑落角和落速约束时带来的过载需求大、落速散布广的问题,提出一种基于虚拟期望落角的末制导律。首先,提出虚拟期望落角的概念,设计过渡函数降低末制导初期过载需求；然后,分析过渡函数各参数对落角、落速影响,设计预测-校正算法计算期望参数；为了提高预测效率与精度,使用深度神经网络离线训练弹道数据集。实际飞行中,基于扩展卡尔曼滤波在线辨识气动参数摄动,提高算法的适应性。蒙特卡洛仿真结果表明,所提出的算法能够降低末制导初期过载需求。在满足落角约束与位置精度的前提下,落速控制精度在±15 m/s以内。     

Damage sensitivity of a wing-type leading edge structure impacted by a bird

On the windward side of an aircraft, the components with higher probability of impact with birds are the wing-type leading edge structures, such as the wing and tail. A study on the damage sensitivity of a wing-type leading edge structure under bird strikes was presented in this paper. First, a bird strike test was carried out on a wing. The principles of the bird strike test equipment and method were introduced in detail, including the bird strike test system, bird projectile production process and data acquisition system. The dynamic strain measurement results, the high-speed camera videos, and the final deformation and damage morphology observations of the structure were obtained. Based on the coupled Smooth Particle Hydrodynamics (SPH) - Finite Element Method (FEM), the commercial software PAM-CRASH was used to simulate the process of a bird strike with the wing. The good agreement between the finite element simulation results and the experimental results shows that the calculation method and the numerical model presented in this paper were reasonable. On this basis, wing-type leading edge structures can be designed by adding triangular support. The bird strike resistances of an original structure and improved structure were studied by numerical simulation. The calculated results show that the improved wing-type leading edge structure is less damaged than the original structure under bird strike. The improved leading edge structure satisfied the anti-bird strike airworthiness requirements, as the thickness of the triangular support was 1.2 mm, and the weight of the structure was reduced by 0.87 kg compared with the original structure. This indicated that the bird strike resistance of the improved structure is better than that of the original structure, and the improved design of the wing-type leading edge structure presented in this paper is reasonable.     

复合材料加筋板冲击后损伤容限研究

研究复合材料加筋板受冲击后的损伤演化具有较高的工程应用价值。首先,以某型无人机拟应用的复合材料加筋壁板(T300/BA9913)为研究对象,对其进行低速冲击试验;在壁板中央处和肋与壁板胶结处进行冲击,其冲击能量取6.67 J/mm,测量凹坑深度和分层损伤面积。然后,应用商业软件ABAQUS,编写相应的VUMAT子程序对冲击损伤进行模拟,软件中采用适宜的材料模型、单元种类并建立不同属性的接触,把基于应变的三维Hashin准则运用于复合材料单层板的损伤失效准则中去。最后,运用基于断裂韧度的连续的刚度退化方针对材料的刚度折减。将所建立的冲击模型的模拟结果与冲击试验数据进行对比,证明了冲击模型的有效性和准确性。     

Assessment of two quasi-static approaches to mimic repeated impact response and damage behaviour of CFRP laminates

Full impact damage tolerance assessment requires the ability to properly mimic the repeated impact response and damage behaviour of composite materials using quasi-static approximations. To this aim, this paper reports an experimental investigation evaluating two quasi-static methods for mimicking repeated impact response and damage behaviour of Carbon Fibre Reinforced Polymer (CFRP) composite laminates. In this study, an 8.45-J single impact was repeated 225 times and mimicked with 225 times 6.51-J quasi-static (energy equivalent) indentations and with 225 quasi-static (force equivalent) indentations following the recorded impact peak force variation. Results show that the loading rate and the inertial effect are the two major factors affecting the responses of the composite laminates under out-of-plane concentrated loading. Both the energy- and force-equivalent quasi-static indentations failed to reproduce the impact responses greatly associated with high loading rate and inertial effect. The force-equivalent quasi-static indentations were performed in a semi-automatic way and induced damage states more similar to those of the repeated impacts than those of the energy-equivalent quasi-static indentations, whereas the latter can be better automated and has better reproducibility compared to that of the repeated impact responses, as it is less dependent on high loading rate and inertial effect.     

爆破战斗部对超音速导弹毁伤效应研究

通过对不同弹目相对距离、交会角工况下,爆破战斗部冲击起爆超音速导弹战斗部临界距离和结构毁伤发动机舱效应的数值模拟计算,研究、评估了爆破战斗部爆炸产生的冲击波和爆轰产物对超音速导弹的毁伤效应。结果表明:爆破战斗部对超音速导弹的毁伤以结构毁伤为主,冲击起爆超音速导弹战斗部能力较弱;爆破战斗部对超音速导弹发动机舱的毁伤效应,随弹目相对距离的增加而迅速减小;弹目相对距离相同时,各工况下的毁伤效应,先随弹目交会角的增大而增大,而后随弹目交会角的增大而减小。     

Hail impact responses and residual tensile properties of CFRP T-joints

Hail impact is a major challenge encountered by aircraft in flight, and thus is a key concern in the design of damage-tolerant composite T-joints in aviation. The study uses the Z-pinning technique(the pre-hole insertion technology) in combination with fillets of two radiuses to manufacture four types of Carbon Fiber Reinforced Polymers(CFRP) T-joints. The T-joints are then subjected to hail impact tests at two energy levels, as well as post-impact quasi-static tensile tests.The results show tha...     

折叠翼弹簧锁紧机构动力学仿真分析

基于刚柔耦合动力学理论,对折叠翼弹簧锁紧机构展开到位瞬时的碰撞问题进行分析,采用LS-DYNA建立折叠翼的刚柔耦合动力学模型,在各构件之间建立运动副和接触关系,对折叠翼展开到位时的局部接触碰撞动力学过程进行数值模拟。本文的建模方法更准确地计算了折叠翼展开到位的动力学响应,给出了折叠翼展开到位的碰撞特性,得到碰撞过程中折叠翼的应力分布。从而为折叠翼机构的设计提供指导。