一种雷达波衰减型红外迷彩伪装遮障材料设计方案

伪装遮障以其伪装性能好、适应能力强、作业简单、携带方便而在现代战争中被广泛采用。在对遮障材料性能要求分析的基础上,提出了一种新型雷达波衰减型红外迷彩伪装遮障材料的设计方案。其在可见光、近红外、雷达波段均具有良好的反探测性能,可有效对抗现代高技术侦察手段和设施。     

基于空域相关滤波的雷达回波信号降噪方法

对雷达探测来说,如何有效地增强真实目标回波信号、提高信噪比水平是非常重要的。传统的降噪方法如平滑滤波、傅立叶降噪很难有效地降低与目标频谱相重叠的噪声。空域相关滤波算法是小波滤波算法中的一种,能够有效地解决这个问题。该算法是利用真实信号与噪声在尺度间的不同表现来实现的,能够在保留信号细节的同时,有效地降低噪声。仿真表明,该算法在雷达回波的降噪中取得了较好效果,有效地降低了噪声。     

某型飞机大气数据系统设计

大气数据系统是重要的机载电子设备,其性能、精度直接关系到飞机的飞行安全.在介绍某型号飞机大气数据系统的软硬件体系结构的基础上,从三个方面深入研究了提高大气数据系统精度的途径:大气数据计算模型;基于BP神经网络的压力测量温度误差补偿方法;一种计算型静压源误差补偿方法.其大气数据系统系统性能稳定,结构紧凑,速度快,精度高,软硬件升级简单.试验证明其大气数据系统能很好满足某型号飞机的使用要求.     

长背鳍扭波推进活鱼实验研究

对依靠长背鳍扭波推进的尼罗河魔鬼鱼(GNF)进行循环水槽实验研究,录制各种游动模式的DV图像,分析研究GNF的游动参数,得到了扭波频率、波长与游速的定量关系,以及斯特罗哈数与雷诺数的关系曲线。当特征游速U≤1.3时,游速与扭波频率成正比,特征波长λ≈0.31,斯特罗哈数St≈0.41;当特征游速U1.3时,扭波频率ν不再增大(约5.5～6 Hz),GNF采用变波长模式游动,平均特征波长λ最大增加到0.38,斯特罗哈数St则减小,最小为0.31,与BCF模式St值相同。     

超短波电台网模型研究

超短波通信是军事通信中广泛应用的通信方式,如何根据应用需要建立适合的网络与通信模型是作战建模与仿真中经常遇到和需要解决的问题。分析了当前超短波通信建模研究的现状,在详细探讨建模需求的基础上,提出了超短波电台网网络模型,给出了有效通信距离简化模型,以及考虑战场电磁环境和地理环境的通信链路质量模型,最后进行了仿真实验验证。该模型能够有效解决作战模拟中超短波通信效果对于作战效能影响分析的问题,简化了模型设计,提高了模型应用性,也为短波、微波、卫星等其他类型网络模型设计提供了参考建模方法。     

A fast-running method for blast load prediction shielding by a protective barrier

This study presents a simplified blast load prediction method on structures behind a protective barrier. The proposed method is basically an empirical approach based on Kingery-Bulamsh (K-B) chart and finite element (FE) analysis results. To this end, this study divides the structure into three regions by three critical points. Blast loads at each critical point can be calculated based on K-B chart and an approximation according to FE analysis results. Finally, peak reflected overpressure and impulse distributed on the structure can be approximately estimated by linearly connecting blast loads at each critical point. In order to confirm a feasibility of the proposed method, a series of numerical simulations were carried out. The simulation results were compared with FE analysis results which are presented in the open literature. From such comparisons, it was found that the proposed method is applicable to predict blast loads on structures behind a protective barrier.     

新型低后坐膨胀波火炮的原理分析及模型研究

系统地介绍了各种低后坐武器的工作原理和存在的相应缺陷,并在此基础上全面介绍了一种新型低后坐武器--膨胀波火炮的工作原理、性能,以及目前尚待解决的技术问题.同时根据膨胀波火炮的工作方式,考虑发射过程中混合流体的相间作用,采用两相流理论中的分流法建立描述膛内射击过程的内弹道两相流气动力模型,分析了其减小后坐和降低身管温度的机理,并给出了相应的数值解法.     

炸药冲击波激励气体辐射的数值模拟

建立了炸药冲击波激励气体辐射的物理模型和数学模型。用MMIC - 2D软件对爆炸过程进行了模拟计算。分析了冲击波作用下气体的流动特性 ,并给出了爆炸全场的密度分布及随时间的变化规律     

基于航向自动舵实船环境模拟的海浪扰动模型研究

以航向自动舵实船模拟环境的建立为背景,讨论了等效到舵叶舵角上的海浪扰动数学模型的建立,并通过仿真,分析了各种因素对海浪扰动的影响.     

Investigation on energy output structure of explosives near-ground explosion

In order to give the energy output structure of typical explosives near-ground explosion in real ground conditions, the free-field shockwave, ground reflection shockwave and Mach wave overpressure time history of composition B explosive, RDX explosive and aluminized explosive were measured by air pressure sensors and ground pressure sensors. The shape of the free-field shock wave, ground reflection shock wave, and Mach wave and explosion flame were captured by high-speed camera. The experimental results show that, at the same horizontal distance from the initiation point, the peak overpressure of explosive shock wave of composition B explosive, both in the air and on the ground, is less than that of RDX and aluminized explosives. At a distance of 3.0 m from the initiation point, the peak overpressure of aluminized explosives is slightly less than that of RDX explosives. Owing to the exothermic effect of aluminum powder, the pressure drop of aluminized explosives is slower than that of RDX explosives. At 5.0 m from the initiation point, the peak overpressure of aluminized explosives is larger than that of RDX explosives. At the same position from the initiation point, among the three kinds of explosives, the impulse of aluminized explosives is the maximum and the impulse of composition B explosives is the minimum. With the increase of the horizontal distance from the initiation point, the height of Mach triple-points (Mach steam) of the three explosives increases gradually. At the same horizontal distance from the initiation point, there is poorly difference in the height of Mach triple-points between aluminized explosive and RDX explosive, and the height of Mach triple-points of composition B explosive is much smaller than that of other two explosives. The maximum diameter and duration of the fireball formed by aluminized explosives are the largest, followed by composition B explosive, and the maximum diameter and duration of the fireball formed by RDX explosive are the smallest.