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倾转旋翼飞行器旋翼对机翼向下载荷计算模型 总被引:3,自引:2,他引:1
针对倾转旋翼飞行器悬停和小速度前飞的直升机飞行模式下旋翼下洗流对机翼的气动干扰影响,建立了一个机翼向下载荷的计算模型.该模型中,最关键的是建立旋翼对机翼的气动干扰面积模型.此模型考虑了倾转旋翼飞行器几何尺寸条件、发动机短舱倾转角和飞行状态等参数.最后将此模型集成到XV-15倾转旋翼飞行器飞行动力学模型中,进行配平计算,... 相似文献
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《中国航空学报》2021,34(2):516-528
With the development of coaxial rotors and high-speed helicopters, the electromagnetic scattering characteristics of coaxial helicopters have gradually become a research hotspot. In order to deal with the Radar Cross-Section (RCS) of high-speed rotating rotors or coaxial main rotors, a Dynamic Scattering Method (DSM) based on dynamic process simulation and grid coordinate transformation is presented. Instantaneous electromagnetic scattering from rotors and helicopters is solved using Physical Optics (PO) and Physical Theory of Diffraction (PTD). Important factors are analyzed and discussed in detail, including individual rotor rotation, azimuth, elevation angle, fuselage, pitch angle, and roll angle. The results show that the electromagnetic scattering characteristics of rotor-type components are dynamic and periodic. The dynamic RCS period of a single rotor is related to the dynamic RCS period of the coaxial main rotor. Choosing different observation angles and attitude angles has a great impact on the static and dynamic RCS of the helicopter. The presented DSM is effective and efficient to analyze and determine the dynamic electromagnetic scattering characteristics of conventional helicopters or coaxial helicopters. 相似文献
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直升机翼面类部件雷达目标特性分析及评估 总被引:1,自引:0,他引:1
基于准静态原理,采用电磁高频法开展直升机翼面类部件的雷达目标特性分析及评估.首先,为获得翼面类部件对直升机散射特性的影响规律,并考虑旋翼高速旋转的动态效应,着重分析了装配不同翼面类部件后机身雷达散射截面(RCS)的变化趋势、强散射分布和回波信号的时频域谱特征,揭示了翼面类部件雷达散射影响机理;然后,在评估直升机强散射源分布特征和多元响应特性的基础上,比较装配不同翼面类部件后机身的雷达探测距离,提出并建立了方位、俯仰与滚转姿态下直升机的雷达4级预警机制和角域范围,并针对性的给出对抗雷达探测的方案.研究发现:装配平尾、短翼及平尾和短翼组合的直升机相比孤立机身的雷达暴露距离分别增加11.54%,14.88%和18.06%,综合隐身能力下降. 相似文献
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A tilt rotor is an aircraft of a special kind, which possesses the characteristics of a helicopter and a fixed-wing airplane. However, there are a great number of important technical problems waiting for settlements. Of them, the flight control system might be a critical one. This article presents the progresses of the research work on the design of flight control system at Nanjing University of Aeronautics and Astronautics (NUAA). The flight control law of the tilt rotor aircraft is designed with the help of an inner/outer loop control structure and an eigenstructure assignment algorithm on the basis of a proper mathematical model already verified by the wind tunnel tests. The proposed control law has been born out through the construction of the flight control system and the flight tests. Now, the flight tests are still underway on a prototype of small unmanned tilt rotor aircraft. The results have evidenced the credibility of the aircraft design and the effectiveness of the flight control system for the tilt rotor working in the helicopter mode. A full envelope flight test is planned to carry out further researches on the flight control law. 相似文献
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考虑旋翼调制影响的直升机RCS特性分析及评估 总被引:2,自引:1,他引:1
考虑旋翼调制的影响,建立了适合于直升机全机雷达散射截面(RCS)特性计算的“面元-边缘法”.兼顾计算效率和精度,在外形变化剧烈地区域,网格进行加密处理,并保证电磁网格密度和尺度满足雷达波波长大小的比例关系.以桨盘倾倒方式计入桨叶的挥舞和变距运动,采用准静态法模拟旋翼对全机RCS特性的影响.分析了某直升机RCS极化、姿态、频率响应特性,并根据直升机RCS和雷达探测距离关系,提出了4级预警机制和角域范围.研究表明:旋翼转动时全机RCS动态响应具有连续性和对称性,振荡区散射水平强,RCS幅值为-5~12dB ·m2;奇数片桨叶比偶数片桨叶的RCS减缩2~5dB ·m2,且有利于控制直升机RCS包络线和散射峰值的时域响应,增强雷达隐身性能. 相似文献
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Numerical simulation of aerodynamic interaction for a tilt rotor aircraft in helicopter mode 总被引:1,自引:1,他引:0
A rotor CFD solver is developed for simulating the aerodynamic interaction phenomenon among rotor, wing and fuselage of a tilt rotor aircraft in its helicopter mode. The unsteady Navier–Stokes equations are discretized in inertial frame and embedded grid system is adopted for describing the relative motion among blades and nacelle/wing/fuselage. A combination of multi-layer embedded grid and ‘‘extended hole fringe" technique is complemented in original grid system to tackle grid assembly difficulties arising from the narrow space among different aerodynamic components, and to improve the interpolation precision by decreasing the cell volume discrepancy among different grid blocks. An overall donor cell searching and automatic hole cutting technique is used for grid assembly, and the solution processes are speeded up by introduction of Open MP parallel method. Based on this solver, flow fields and aerodynamics of a tilt rotor aircraft in hover are simulated with several rotor collective angles, and the corresponding states of an isolated rotor and rotor/wing/fuselage model are also computed to obtain reference solution.Aerodynamic interference influences among the rotor and wing/fuselage/nacelle are analyzed,and some meaningful conclusions are drawn. 相似文献
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倾转旋翼机飞行力学特性 总被引:5,自引:2,他引:3
总结和分析了旋翼、机翼、机身、短舱和尾翼气动力模型和操纵机构特点,其中旋翼气动力模型以准定常叶素理论为基础,机翼和尾翼气动力模型以升力线理论为基础,并分析了旋翼尾流对机翼气动力气动干扰问题;建立了全量非线性倾转旋翼机飞行力学模型;以XV-15为样机,对倾转旋翼机在不同飞行模式和飞行速度下飞行力学特性展开了详细研究,得到的结论有助于深入了解倾转旋翼机飞行力学特性,也可用于倾转旋翼机飞行控制系统设计. 相似文献
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The aerodynamic layout of the Canard Rotor/Wing(CRW) aircraft in helicopter flight mode differs significantly from that of conventional helicopters. In order to study the flight dynamics characteristics of CRW aircraft in helicopter mode, first, the aerodynamic model of the main rotor system is established based on the blade element theory and wind tunnel test results. The aerodynamic forces and moments of the canard wing, horizontal tail, vertical tail and fuselage are obtained via theoretical analysis and empirical formula. The flight dynamics model of the CRW aircraft in helicopter mode is developed and validated by flight test data. Next, a method of model trimming using an optimization algorithm is proposed. The flight dynamics characteristics of the CRW are investigated by the method of linearized small perturbations via Simulink. The trim results are consistent with the conventional helicopter characteristics, and the results show that with increasing forward flight speed, the canard wing and horizontal tail can provide considerable lift,which reflects the unique characteristics of the CRW aircraft. Finally, mode analysis is implemented for the linearized CRW in helicopter mode. The results demonstrate that the stability of majority modes increases with increasing flight speed. However, one mode that diverges monotonously,and the reason is that the CRW helicopter mode has a large vertical tail compared to the conventional helicopter. The results of the dynamic analysis provide optimization guidance and reference for the overall design of the CRW aircraft in helicopter mode, and the model developed can be used for control system design. 相似文献
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缝隙目标电磁散射特性试验 总被引:3,自引:0,他引:3
通过对目标结构进行合理设计,可以在一定角域内显著减小雷达散射截面(RCS)。对飞行器表面常见锯齿缝隙的散射特性进行了研究。在微波暗室内对锯齿缝隙分别沿俯仰角变化、方位角变化的减缩效果进行测试。俯仰角变化时,锯齿缝隙有较好的减缩作用,以114°锯齿缝隙在试验中减缩效果最好。方位角变化时,对114°锯齿缝隙进行了多频段测试,并与相应直缝隙进行了对比研究,结果表明,通过选取合适的方位角角域,锯齿缝隙的减缩作用会随入射波频率的升高和仰角的增大而显著增强。结论可为高性能隐身飞行器外形隐身设计提供参考。 相似文献
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研究倾转旋翼机短舱倾转机构在短舱从固定翼模式运动到直升机模式过程中的动力学特性具有重要的意义.在短舱倾转机构传力分析及运动学分析的基础上,应用LMS Motion建立了短舱倾转机构多体动力学仿真模型,定义短舱倾转机构的各构件及其属性,创建各构件之间的运动副,定义运动机构驱动,创建外力和力矩以模拟真实的工况,得到并分析短舱和丝杠的主要运动参数曲线以及机构主交点的受力变化情况.结果表明:丝杠与短舱连接点处作用力随短舱的仰角增大先减小再增大,短舱与机翼支点处作用力随着短舱的仰角增大而逐渐增大.研究结果可为倾转旋翼机短舱倾转机构的参数确定提供参考. 相似文献
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为估算运载火箭的RCS(Radar Cross Section,雷达散射截面积),采用部件分解法对运载火箭进行电磁散射几何建模,根据飞行过程中运载火箭和雷达的几何关系建立雷达照射目标视线角的计算模型,并运用高频散射理论提出运载火箭RCS的仿真计算方法;最后,对运载火箭的静态RCS和动态RCS进行仿真计算与分析.结果表明:对运载火箭电磁散射几何建模合理可行,提出的火箭RCS计算方法可以满足工程应用需要.采用该方法仅修改几何建模中的模型结构和部分尺寸参数即可方便计算不同型号运载火箭的RCS特性,可以为航天测控雷达系统设计和布站优化提供依据. 相似文献
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In this paper, two typical stealth aircraft concepts (wing fuselage blended and flying-wing) were designed. Then three gradually changed surface distribution models with the same plan-form for each concept were created. Based on the multilevel fast multipole algorithm (MLFMA), the vertical polarization transmitting/vertical polarization receiving (VV) and horizontal polariza-tion transmitting/horizontal polarization receiving (HH) radar cross section (RCS) characteristics were simulated with five frequencies between 0.1 and 1.0 GHz. The influences and mechanisms of aircraft surface distribution on electromagnetic scattering characteristics were investigated. The results show that for the wing fuselage blended concept, the VV RCS of this frequency range is higher than the HH RCS in most cases, while it is just the opposite for the flying-wing concept. As for the two aircraft concepts, the RCS levels of HH and VV both decrease with the frequency increasing, but the HH RCS has a faster downward trend. The surface distribution has little influ-ence on HH RCS characteristics. On the contrary, it has a significant impact on VV RCS charac-teristics, and the amplitude of the VV RCS increases with the surface thickness. 相似文献
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针对鸭式旋翼/机翼无人机兼有直升机和固定翼机飞行特性的特点,对其飞行动力学模型进行了理论建模与分析研究。应用动量理论建立了旋翼/机翼尾迹模型,分析了旋翼/机翼尾迹对鸭翼、平尾等气动部件的干扰特性,建立了直升机和转换飞行模式受旋翼/机翼尾迹干扰影响的动力学模型以及固定翼飞行模式的动力学模型。提出了各飞行模式的配平策略,使用Matlab工具箱函数简化了平衡特性计算和模型线性化过程,并进行了不同飞行模式、典型飞行状态的纵向运动稳定性分析。结果表明所建立的模型能够反映该类鸭式旋翼/机翼无人机各飞行模式的典型特性,并可用于飞行控制系统设计。 相似文献
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座舱和进气道对飞行器隐身性能有重要作用。为分析座舱及进气道的散射影响特性,建立了四种包含不同部件的电磁模型,结合物理光学法和雷达截面积(RCS)均值相对增值概念,研究了RCS曲线分布影响、俯仰角响应特性、频率响应特性。结果表明:考虑隐身设计的座舱和进气道不改变散射分布特性,RCS曲线分布特性相似;俯仰角增加,座舱影响较小,进气道、混合座舱和进气道前向、后向、周向角域相对增值震荡性递增,频率增加,座舱对电磁散射影响不大,进气道、混合座舱和进气道的前向、后向角域的相对增值震荡减小。座舱对电磁散射影响较小,前向相对增值位于-2.4~1 dB之间,进气道对电磁散射影响较大,前向相对增值为2~12 dB。 相似文献