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。     

炮兵武器毁伤效能的后验计算方法研究

根据试验结果和武器性能对毁伤效能的计算和排序问题,给出了计算炮兵武器毁伤效能的指数法模型和加权平均模型;结合实例计算并排序,使对压制兵器和反坦克兵器的综合毁伤效能有定量的直观认识;进而分析了两种模型的特点;并提出了需要进一步研究的问题。     

基于相位恢复技术的二维相位解包络算法

介绍一种新型的二维相位解包络算法。该算法的原理是将被解包络的相位作为输入光场,通过光学衍射计算得到其远场衍射光场的光强分布,然后使用相位恢复算法进行优化计算,得到一组用于表达连续波面的最佳Zernike多项式参数。此算法的特点在于,结合已成熟的相位恢复算法,波面解包络的唯一性和准确性可得到充分的保证;同时利用光场衍射计算,可方便地通过对衍射光强的滤波实现对相位噪声的抑制。实验验证了该算法的有效性。     

一种新型的计算化学非平衡流动的解耦方法

给出一种计算化学非平衡流动的解耦方法。利用该方法从薄层近似N S方程出发 ,采用NND2M差分格式 ,数值模拟了H2 /O2 燃烧的超音速绕流场 ;计算表明这种方法可以有效地解决刚性问题 ,而且与现有的隐式算法相比 ,具有公式推导简便 ,占用内存少 ,计算效率高等优点 ,特别适合于多组分和多反应的情况     

有限精度的 BP 神经网络高速算法

精度要求是神经网络硬件实现的一个关键问题。本文提出了一种有限精度的BP高速算法，通过实例验证，该算法适于低精度，且收敛速度快。     

吊放声纳非探测时间的计算公式

使用吊放声纳探测潜艇是直升机反潜的主要样式。在评价直升机跟踪潜艇和潜艇规避其跟踪的方法中,吊放声纳非探测时间是最主要的参数。此外给出了计算非探测时间的公式。     

CCRP(炸弹)对地攻击原理算法研究

本文在引入“计算航向”这一概念的基础上重新列出了CCRP对地攻击原理的计算公式。并由此计算出描述投放点相对本机位置的⊿K 与⊿t 两个量。⊿K 表示在当前的攻击条件下“计算航向”与实际航向之差,“计算航向”表示本机若在当前沿该航向按给定条件飞行,则经一定时间⊿t 后即可到达正确的投弹点。     

高速磁悬浮列车电磁场的模拟计算

采用有限元法研究了高速磁悬浮列车的悬浮和推进电磁场,重点研究了车辆在不同运行条件下悬浮力和推力的变化规律,并得出了经验公式。分析和计算结果表明,悬浮力和推力的大小与功角有关,并且由于定子齿槽和材料不连续的影响,悬浮力和推力都存在六倍频的波动。     

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.