基于测速定轨的一类自适应样条滤波方法

提出了一种测速定轨的实时算法。该方法基于样条表示飞行轨道速度参数 ,在只有多个测速元信息的情况下 ,建立了自适应Kalman滤波递推算法 ,实时给出了较高精度的飞行器轨道参数     

致伤因素及其对目标综合效应的估算方法

本文综述了致伤因素对目标的致伤效果,取决于击中的部位和释放能量的多少,且随着击中部位和因素的改变而不同。指出各因素对目标的致伤作用既有相互影响又有其独立性。并给出了致伤因素对目标综合效应的估算公式。     

用于闭式循环柴油机不依赖空气推进装置的吸收器尺寸估算模型研究

根据闭式循环柴油机推进装置（ＣＣＤＡＩＰ）的废气处理要求,研究提出了旋转式二氧化碳吸收器的填料内径、外径、轴向高度的估算数学模型,并对用水吸收二氧化碳的吸收器填料设计尺寸进行了操作安全性校核．     

54／74HC高速CMOS逻辑电路的接口电路

本文主要讨论了５４／７４ＨＣ高速ＣＭＯＳ逻辑电路的性能特．点及接口电路。     

KD-RTI/DDM中的组播分配策略

组播技术的应用可以有效提高RTI的实现性能。介绍了组播分配的一般理论和实现方案,详细展示了KD RTI中的组播分配策略,讨论了组播应用过程中出现的问题,同时给出了解决方法。     

拦截高速机动目标的最优制导律

对于远距离拦截高速、大机动目标,不仅拦截弧段长,拦截飞行时间也更久。拦截弹在飞行过程中的能量管理与优化问题,也是在拦截制导律设计时必须要考虑的问题。将非线性弹目运动关系降阶简化后,运用最优控制理论,将能量管理纳入考虑中,得出针对高速、机动目标的最优制导律,且可以满足终端碰撞角约束。通过引入分段线性和指数两种形式的阻尼,使得导弹在拦截高速高加速目标时,对目标机动的敏感度随弹目距离变化,从而达到能量管理的目的。通过二维非线性仿真验证了制导律的性能。     

Real-time calculation of fragment velocity for cylindrical warheads

To simulate explosion fragments, it is necessary to predict many variables such as fragment velocity, size distribution and projection angle. For active protection systems these predictions need to be made very quickly, before the weapon hits the target. Fast predictions also need to be made in real time simulations when the impact of many different computer models need to be assessed. The research presented in this paper focuses on creating a fast and accurate estimate of one of these variables - the initial fragment velocity. The Gurney equation was the first equation to calculate initial fragment velocity. This equation, sometimes with modifications, is still used today where finite element analysis or complex mathematical approaches are considered too computationally expensive. This paper enhances and improves Breech’s two-dimensional Gurney equation using available empirical data and the principals of conservation of momentum and energy. The results are computationally quick, providing improved accuracy for estimating initial fragment velocity. This will allow the developed model to be available for real-time simulation and fast computation, with improved accuracy when compared to existing approaches.     

Parametric study of single confined fragment launch explosive device

In this article, parametric study of single confined fragment launch device was carried out. The configuration proposed was further studied to derive the empirical relationship for effect of fragment size, charge size, confinement thickness on fragment velocity. The simulations were carried out using ANSYS-AUTODYNE explicit solver. Fragment velocities were estimated as a function of different parametric combinations of explosive quantities, charge length to diameter ratio, fragment height to diameter ratio, confinement thickness, fragment material and fragment mass. The data was further converted to charge to metal ratio under fragment and confinement. It was observed that, increase in confinement thickness, charge quantity and decrease in fragment height increases the fragment velocity. It is also noted that, charge to metal mass ratio under fragment significantly affects the fragment velocity. At the end, an empirical relationship for fragment velocity interms of all these parameters was established. Using these relations, two velocities 1831.92 m/s and 2523.9 m/s required for NATO STANAG 4496 IM test were estimated. The design parameters for these velocities are presented. Also, the results estimated using the empirical relationship has been compared with published experimental data. Error in the predicted velocities is within the acceptable range. The empirical relationship proposed will be useful for finalization of design of the fragment launch device.     

利用RLC电路合成高压方波脉冲

基于过阻尼RLC电路分时放电,提出了一种新型高压方波脉冲产生方法。理论分析表明过阻尼RLC电路产生的双指数电压波与PFL产生的方形电压波具有类似的上升沿和平顶。电路模拟表明通过人工过零技术可以对双指数电压波进行截尾,从而形成完整的高压方波脉冲。建立了原理验证性样机,由两组RLC电路构成,每组电路包含一台400 nF脉冲电容器和一只三电极场畸变气体开关,两组电路共用一个上升沿调节电感。实验证明样机可以在250 Ω电阻负载上输出幅值17 kV,平顶宽度330 ns~5.8 μs,上升沿100~ 350 ns 的单极性高压方波脉冲。该方法适应性强,对负载变化不敏感,同时具有良好的可调节性,方波上升沿、平顶宽度连续独立可调。     

Shaped charge penetration into high- and ultrahigh-strength Steel–Fiber reactive powder concrete targets

Experiments on shaped charge penetration into high and ultrahigh strength steel-fiber reactive powder concrete (RPC) targets were performed in this paper. Results show that the variation of penetration depth and crater diameter with concrete strength is different from that of shaped charge penetration into normal strength concrete (NSC). The crater diameter of RPC is smaller than that of NSC penetrated by the shaped charge. The jet particles are strongly disturbed and hardly reach the crater bottom because they pass through the narrow channel formed by jet penetration into the RPC. The effects of radial drift velocity and gap effects of jet particles for a shaped charge penetration into RPC target are discussed. Moreover, a theoretical model is presented to describe the penetration of shaped charge into RPC target. As the concrete strength increases, the penetration resistance increases and the entrance crater diameter decreases. Given the drift velocity and narrow crater channel, the low-velocity jet particles can hardly reach the crater bottom to increase the penetration depth. Moreover, the narrow channel has a stronger interference to the jet particles with increasing concrete strength; hence, the gap effects must be considered. The drift velocity and gap effects, which are the same as penetration resistance, also have significant effects during the process of shaped charge penetration into ultrahigh-strength concrete. The crater profiles are calculated through a theoretical model, and the results are in good agreement with the experiments.