先进反舰导弹ANL选用冲压发动机为动力

最近,法国宇航公司(Aerospatiale)公布了一种新的轻型反舰导弹ANL的情况.该导弹由法宇航公司与西德MBB公司合作研制,拟采用冲压发动机.法宇航公司建议用液体燃料冲压发动机,就像ASMP战术核导弹上用的液体冲压发动机那样,而MBB则建议用固体火箭-冲压发动机.     

无人机传感器 市场前景广阔

Frost＆Sullivan公司最近发布了一份关于无人机传感器载荷市场的预测报告。该报告认为，由于市场对无人机的需求持续走高，故其机载传感器市场也将在未来获得极大发展，光电（EO）、红外（IR）和具有地面动目标指示能力的合成孔径雷达（SAR／GMTI）三大类传感器将成为所有新型无人机平台的标准装备选项。在最近的实际使用中，这些无人机传感器确实增强了部队的态势感知和交战能力。     

周向总压畸变对对转压气机影响效应分析

以对转压气机为研究对象,在数值方法校验的基础上,应用全通道定常流场分析手段计算了对转压气机不同周向畸变条件下的三维流场,获取了周向总压进气畸变对该压气机性能以及流场结构的影响效应,确定了对转压气机的临界畸变角,分析了不同畸变强度对压气机性能的影响规律,探讨了周向总压畸变在对转压气机中的发展演化过程。结果表明:(a)所研究的对转压气机临界畸变角约为72°,略高于传统动-静叶排交替的压气机临界畸变角;(b)相比均匀进气工况,当畸变指数为0.24时,对转压气机失速点压比和失速裕度分别下降3%和9.6%,当畸变指数为0.5时二者分别下降8.3%和19.8%;(c)未畸变区与畸变区流体之间存在的压力梯度影响转子叶片相对来流速度。进入畸变区叶片来流相对速度减小,负荷降低,退出畸变区叶片来流相对速度增大,负荷增大;(d)上游转子使得畸变水平提高,下游转子反向旋转效应抑制了来流相对速度变化趋势,增强了气流在其叶片通道中的掺混,使得畸变水平有所下降。     

含有不平衡飞轮的卫星精确动力学模型研究

针对含不平衡飞轮的卫星动力学模型,给出了不平衡飞轮的转动惯量矩阵。用多刚体建模方法,建立了综合的完整姿态动力学分析模型,提出了质心位置的计算方法。通过飞轮系统的完整精确模型,将飞轮扰动对三轴姿态稳定卫星的影响反映至滚转一俯仰一偏航三轴姿态。Matlab／Simulink环境中仿真验证了该系统角动量为常值。分析了不平衡飞轮对卫星姿态的影响,并解释了模型的应用。研究表明飞轮扰动影响不可忽略,精确的动力学模型对未来航天器的应用有重要意义。     

Accuracy enhancement of the spherical actuator with a two-level geometric calibration method

This paper presents a two-level geometric calibration method for the permanent magnet （PM） spherical actuator to improve its motion control accuracy. The proposed actuator is com- posed of a stator with circumferential coils and a rotor with multiple PM poles. Due to the assembly and fabrication errors, the real geometric parameters of the actuator will deviate from their design values. Hence, the identification of such errors is critical for the motion control tasks. A two-level geometric calibration approach is proposed to identify such errors. In the first level, the calibration model is formulated based on the differential form of the kinematic equation, which is to identify the geometric errors in the spherical joint. In the second level, the calibration model is formulated based on the differential form of torque formula, which is to calibrate the geometric parameters of the magnetization axes of PM poles and coils axes. To demonstrate the robustness and availability of the calibration algorithm, simulations are conducted. The results have shown that the proposed two-level calibration method can effectively compensate the geometric parameter errors and improve the positioning accuracy of the spherical actuator.     

舰载直升机金属动部件寿命控制技术研究

在分析现役老龄化舰载直升机动部件载荷特点的基础上,结合直升机所处的海洋腐蚀环境,讨论了舰载直升机的损伤类型和损伤容限寿命管理方法在其寿命分析中的应用,比较了损伤容限法应用于舰载直升机动部件与应用于固定翼飞机的不同点,重点讨论了损伤容限方法应用于工程实践亟待解决的关键技术。     

Parametric analyses for synthetic jet control on separation and stall over rotor airfoil

Numerical simulations are performed to investigate the effects of synthetic jet control on separation and stall over rotor airfoils. The preconditioned and unsteady Reynolds-averaged Navier–Stokes equations coupled with a k x shear stream transport turbulence model are employed to accomplish the flowfield simulation of rotor airfoils under jet control. Additionally,a velocity boundary condition modeled by a sinusoidal function is developed to fulfill the perturbation effect of periodic jets. The validity of the present CFD procedure is evaluated by the simulated results of an isolated synthetic jet and the jet control case for airfoil NACA0015. Then, parametric analyses are conducted specifically for an OA213 rotor airfoil to investigate the effects of jet parameters(forcing frequency, jet location and momentum coefficient, jet direction, and distribution of jet arrays) on the control effect of the aerodynamic characteristics of a rotor airfoil. Preliminary results indicate that the efficiency of jet control can be improved with specific frequencies(the best lift-drag ratio at F+= 2.0) and jet angles(40 or 75) when the jets are located near the separation point of the rotor airfoil. Furthermore, as a result of a suitable combination of jet arrays, the lift coefficient of the airfoil can be improved by nearly 100%, and the corresponding drag coefficient decreased by26.5% in comparison with the single point control case.