基于双基阵的高炮弹丸炸点被动声定位研究

被动声定位技术在许多领域中有着广泛的应用,但定位精度低一直是影响其工程应用的关键问题之一。在研究单基阵被动声定位技术的基础上,提出了基于双基阵的被动声定位基本原理和方法,并对高炮弹丸炸点的被动声定位进行了仿真实验。仿真结果表明,采用双基阵对高炮弹丸炸点进行被动声定位,其精度有较大提高,克服了单基阵定位精度低的不足。此原理和方法同样适用于对其它三维空中目标进行被动声定位。     

烟幕弹弹丸可视化设计系统建模方法研究

介绍了对烟幕弹弹丸进行可视化设计可行性的研究,以某型号烟幕弹弹丸为实例阐述了参数化模型的建立方法及特征数自动计算的实现,并对该可视化设计程序进行了验证。     

双壳体潜艇磁场变化的实验研究与特性分析

双壳体潜艇的磁化特征与单壳体潜艇有较大区别,为了将其磁化特性分析清楚,建立了双层圆柱形铁壳桶的简易潜艇模型,并将其放置于地球磁场环境中,利用通电线圈产生的强大磁场对潜艇模型进行局部磁化;然后,以潜艇垂向磁场变化量作为分析对象,并结合舰船磁场规律、磁滞特性、退磁场等理论,对双壳体潜艇的磁场变化规律进行了定性分析。研究结果表明:双壳体潜艇的外壳磁化规律近似于单壳体潜艇,而由于外壳屏蔽地球磁场,内壳几乎只受到线圈磁化影响。该结论可以为舰船消磁作业等提供理论依据。     

脱壳弹弹托分离的双目视觉测量

脱壳弹的弹托分离过程对弹体的飞行稳定性和打击效能具有显著的影响。针对脱壳弹出膛后弹托相对弹体的六自由度运动过程,提出采用基于双目视觉原理的弹托分离角测量方法。通过在弹体表面和弹托表面设置标记点,采用图像处理和跟踪算法实现对标记点的识别和跟踪。结合双目空间标定参数解算出标记点的空间位置,进而获得弹托相对弹体的分离角度,同时采用实验验证了上述测量方法的精度,其精度达到2%。以实验室进行的初速度1 550 m/s和1 750 m/s的脱壳弹射击试验为例,测量并分析了不同初速度下的弹托分离轨迹。结果表明:脱壳弹分离初速度越快,弹托分离轨迹越靠近弹体。     

运动补偿与UWB SAR中RD成像算法结合的实现方法

分析了机载合成孔径雷达(SAR)中载机运动误差对接收信号的影响,指出在运动补偿处理中可以将距离向误差分解为空不变项和空变项,在此基础上采用一阶和二阶运动补偿的方法来对两个误差项进行补偿.为了将测量的运动误差数据应用到高分辨率成像中,提出了一种与距离多普勒(RD)成像算法相结合的运动补偿方案.通过对仿真数据的测试,本文方法得到了验证.     

水下爆炸载荷作用下受损加肋圆柱壳的剩余屈曲强度计算

研究了在水下爆炸载荷作用下受损的加肋圆柱壳的屈曲.结合DYTRAN软件和NASTRAN软件计算了水下爆炸载荷作用下受损的加肋圆柱壳的剩余屈曲强度,并且提出了一种结合上述两种软件计算加肋圆柱壳的剩余屈曲强度的方法.数值计算表明,预测结果与实验结果吻合较好.     

关于圆柱壳在水下爆炸冲击波作用下二次加载现象的数值模拟研究

运用大型商业有限元程序MSC.DYTRAN数值模拟了水下爆炸冲击波载荷作用下自由环肋圆柱壳的非线性动态响应.采用一般耦合算法(generalcoupling)模拟流体与结构的耦合效应,计算中考虑了材料的应变率强化效应,几何非线性的影响,分析了空穴现象的产生和二次加载对结构响应的影响.仿真结果表明,相同工况和厚度下的无限自由平板和自由环肋圆柱壳,后者的空化时间比前者长,而壳体运动的最大速度后者比前者低.     

The deformation and failure mechanism of cylindrical shell and square plate with pre-formed holes under blast loading

The deformation and failure mechanism of cylindrical shells and square plate with pre-formed holes under blast loading were investigated numerically by employing the Ansys 17.0 and Ls-Dyna 971. To calibrate the numerical model, the experiments of square plates with pre-formed circle holes were modeled and the numerical results have a good agreement with the experiment data. The calibrated numerical model was used to study the deformation and failure mechanism of cylindrical shells with pre-formed circle holes subjected to blast loading. The structure response and stress field changing process has been divided into four specific stages and the deformation mechanism has been discussed systematically. The local and global deformation curves, degree of damage, change of stress status and failure modes of cylindrical shell and square plate with pre-formed circular holes are obtained, compared and analyzed, it can be concluded as: (1) The transition of tensile stress fields is due to the geometrical characteristic of pre-formed holes and cylindrical shell with arch configuration; (2) The existence of pre-formed holes not only lead to the increasing of stress concentration around the holes, but also release the stress concentration during whole response process; (3) There are three and two kinds of failure modes for square plate and cylindrical shell with pre-formed holes, respectively. and the standoff distance has a key influence on the forming location of the crack initiating point and the locus of crack propagation; (4) The square plate with pre-formed holes has a better performance than cylindrical shell on blast-resistant capability at a smaller standoff distance, while the influence of pre-formed holes on the reduction of blast-resistant capability of square plate is bigger than that of cylindrical shell.