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本文对超宽带(UWB)/冲激雷达的反隐身机理作了全面的讨论。从冲激脉冲具有的超宽带特性、短时性、信号先兆效应、电磁导弹特性,以及吸波材料的驰豫时间效应和自诱导透明性等方面,分析对比了冲激雷达与常规雷达回波的差异。初步实验结果表明,超宽带冲激雷达有优越的反隐身能力 相似文献
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分析了舰艇雷达隐身的原理和方法,论述了舰艇外形对雷达散射截面的影响,提出了建立舰艇雷达散射截面预估程序的基本思想. 相似文献
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铝合金表面涂覆隐身吸波涂层脱落原因分析 总被引:2,自引:0,他引:2
通过对某装备车体外脱落隐身吸波涂层样品的表面形貌、截面形貌、元素组成及含量分析,发现吸波涂层和Al2O3钝化层之间没有化学结合键,只存在物理吸附和机械结合,在外部环境的作用下,很容易引起隐身吸波涂层的脱落。 相似文献
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基于背衬影响的水下声隐身夹芯复合材料结构设计 总被引:1,自引:0,他引:1
在考虑背衬影响的前提下,建立了3种典型水下声隐身夹芯复合材料的结构模型;从水声波动方程出发,推导了3种模型的传递矩阵、声反射系数和吸声系数,并通过试验验证了传递矩阵法的有效性;考虑吸声层厚度、密度、损耗因子、水层厚度等对声隐身性能的影响,应用数值方法对水下夹芯复合材料声隐身结构形式进行了设计,分析了各层材料参数对隐身结构反射系数和吸声系数的影响规律;在吸声层中附加了一层复合材料,有效地抑制了隐身结构的谐振峰,并研究了附加层的匹配位置,使隐身结构在不改变吸声层厚度的情况下获得了更好的声学性能. 相似文献
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隐身飞机已逐步成为大国重器,并将持续发挥重要影响,隐身技术也已成为飞行器设计的关键技术。隐身飞机的雷达散射截面积(radar cross section, RCS)测量是设计、制造、维护隐身飞机的必要手段。从缩比模型的RCS测试、全尺寸飞机室外RCS测试、全尺寸飞机室内近场测试三个方面,回顾了隐身飞机RCS测量的基本流程,总结了隐身飞机RCS近场测量的理论基础,并着重对具有成像诊断功能的近场RCS测量技术进行了梳理与分析。对隐身飞机RCS测量的应用趋势和关键技术进行了总结与展望, 有利于对隐身飞机RCS测量形成总体性了解,并把握RCS测量的发展方向。 相似文献
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高频地波超视距雷达述评 总被引:5,自引:0,他引:5
高频(HF)地波超视距雷达(GW-OTHR)利用雷达波束绕地表面衍射作用,能探测视距外的舰船、低空飞机和巡航导弹,不仅覆盖面积大、费用低,能弥补常规微波雷达低空盲区和天波超视距雷达的近距盲区,也无需注意电离层的变化,且可反隐身、抗反辐射导弹(ARM),因而在许多国家的国民经济和国防领域中得到了广泛的应用。论述了地波沿海面传播的特性和探测能力,并对超视距雷达的发展和应用进行了介绍。 相似文献
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为掌握带内双频电磁辐射对雷达的虚警干扰规律,以频率步进连续波雷达为研究对象,基于理论分析与效应试验,研究了虚警目标的电平变化规律、波形特征以及出现位置规律。结果表明:受试雷达在带内双频电磁辐射作用下,不考虑互调干扰时,至多产生两个位置随机的“山丘型”虚警目标,两者距离差与双频干扰频差有关。双频干扰中两分量互相压制,即当任一干扰分量强度恒定时,随着另一个分量的增强,前者形成的虚警目标电平缓慢下降,最终降速基本恒定,而后者形成虚警目标电平逐渐升高,直至电平恒定;若双频干扰信号两分量同比例增强,则两个虚警目标电平均在初期近似线性上升,而后增速逐渐降低至零。 相似文献
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光纤通信系统用减反膜的研究 总被引:2,自引:1,他引:2
针对WDM光纤通信系统对具有极高透过率的光学薄膜元件的需要,系统地研究了增透膜的设计与镀制.采用统计实验求总极值法和Powell最小二乘法相结合的多级优化方法编制程序,完成了以BK7玻璃为基底的增透膜的膜系设计,采用多种监控方法完成了此类非规整膜系的镀制实验.测试结果表明,采用变过正量极值法监控非规整膜系的镀制,可精确控制各层膜的光学厚度,获得在1550nm波段附近具有很高透过率的光学薄膜元件. 相似文献
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《防务技术》2020,16(1):96-106
The numerical simulation of a blast wave of a multilayer composite charge is investigated. A calculation model of the near-field explosion and far-field propagation of the shock wave of a composite charge is established using the AUTODYN finite element program. Results of the near-field and far-field calculations of the shock wave respectively converge at cell sizes of 0.25–0.5 cm and 1–3 cm. The Euler––flux-corrected transport solver is found to be suitable for the far-field calculation after mapping. A numerical simulation is conducted to study the formation, propagation, and interaction of the shock wave of the composite charge for different initiation modes. It is found that the initiation mode obviously affects the shock-wave waveform and pressure distribution of the composite charge. Additionally, it is found that the area of the overpressure distribution is greatest for internal and external simultaneous initiation, and the peak pressure of the shock wave exponentially decays, fitting the calculation formula of the peak overpressure attenuation under different initiation modes, which is obtained and verified by experiment. The difference between numerical and experimental results is less than 10%, and the peak overpressure of both internal and external initiation is 56.12% higher than that of central single-point initiation. 相似文献
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Among the intrinsic properties of some materials, e.g., foams, porous materials, and granular materials, are their ability to mitigate shock waves. This paper investigated shock wave mitigation by a sandwich panel with a granular core. Numerical simulations and experimental tests were performed using Autodyn hydro-code software and a shock tube, respectively. The smoothed particle hydrodynamics (SPH) method was used to model granular materials. Sawdust and pumice, whose properties were determined by several compression tests, were used as granular materials in the sandwich panel core. These granular materials possess many mechanisms, including compacting (e.g., sawdust) and crushing (e.g., pumice) that mitigate shock/blast wave. The results indicated the ineffectiveness of using a core with low thickness, yet it was demonstrated to be effective with high thickness. Low-thickness pumice yielded better results for wave mitigation. The use of these materials with a core with appropriate core reduces up to 88% of the shock wave. The results of the experiments and numerical simulations were compared, suggesting a good agreement between the two. This indicates the accuracy of simulation and the ability of the SPH method to modeling granular material under shock loading. The effects of grain size and the coefficient of friction between grains have also been investigated using simulation, implying that increasing the grain size and coefficient of friction between grains both reduce overpressure. 相似文献