发射井内弹-筒系统抗爆减震设计

为提高井下冷发射导弹的生存能力,对其开展了抗爆减震设计研究,建立了弹-筒系统在不同减震方式下的有限元仿真模型,计算了弹-筒系统在爆炸地冲击作用下的动态响应,比较了悬吊式、下支承式、斜吊式等多种减震系统的减震效果,并分析了减震器刚度和阻尼对减震效果的影响。结果表明：悬吊式减震系统的减震效果略好于下支承式,斜吊式最差,合理减小减震器刚度和阻尼可以明显提升悬吊式减震系统的减震效果。     

Two novel critical shock models based on Markov renewal processes

In this paper, we investigate systems subject to random shocks that are classified into critical and noncritical categories, and develop two novel critical shock models. Classical extreme shock models and run shock models are special cases of our developed models. The system fails when the total number of critical shocks reaches a predetermined threshold, or when the system stays in an environment that induces critical shocks for a preset threshold time, corresponding to failure mechanisms of the developed two critical shock models respectively. Markov renewal processes are employed to capture the magnitude and interarrival time dependency of environment-induced shocks. Explicit formulas for systems under the two critical shock models are derived, including the reliability function, the mean time to failure and so on. Furthermore, the two critical shock models are extended to the random threshold case and the integrated case where formulas of the reliability indexes of the systems are provided. Finally, a case study of a lithium-ion battery system is conducted to illustrate the proposed models and the obtained results.     

Cell-type continuous electromagnetic radiation system generating millimeter waves for active denial system applications

The cell-type continuous electromagnetic radiation system is a demonstration device capable of generating high-power millimeter electromagnetic waves of a specific wavelength and observing their effects on living organisms. It irradiates a biological sample placed in a 30 × 30 × 50 cm³ cell with electromagnetic waves in the 3.15-mm-wavelength region (with an output of ≥1 W) and analyzes the temperature change of the sample. A vacuum electronic device-based coupled-cavity backward-wave oscillator converts the electron energy of the electron beam into radiofrequency (RF) energy and radiates it to the target through an antenna, increasing the temperature through the absorption of RF energy in the skin. The system causes pain and ultimately reduces combat power. A cell-type continuous electromagnetic radiation system consisting of four parts—an electromagnetic-wave generator, a high-voltage power supply, a test cell, and a system controller—generates an RF signal of ≥1 W in a continuous waveform at a 95-GHz center frequency, as well as a chemical solution with a dielectric constant similar to that of the skin of a living organism. An increase of 5 °C lasting approximately 10 s was confirmed through an experiment.     

Monitoring and Prediction of the Vibration Intensity of Seismic Waves Induced in Underwater Rock by Underwater Drilling and Blasting

All underwater drilling and blasting operations generate seismic waves.However,due to a lack of suitable vibration sensing instruments,most studies on the propagation of seismic waves have been limited to shorelines near construction areas or wharfs,whereas comparatively few studies have been conducted on the larger seafloor itself.To address this gap,a seafloor vibration sensor system was developed and applied in this study that consists of an autonomous acquisition storage terminal,soft-ware platform,and hole-plugging device that was designed to record the blasting vibration intensities received through submarine rocks at a given measurement point.Additionally,dimensional analyses were used to derive a predictive equation for the strength of blast vibrations that considered the in-fluence of the water depth.By combining reliable vibration data obtained using the sensor system in submarine rock and the developed predictive equation,it was determined that the water depth was an important factor influencing the measured vibration strength.The results using the newly derived equation were compared to those determined using the Sadowski equation,which is commonly used on land,and it was found that predictions using the derived equation were closer to the experimental values with an average error of less than 10％,representing a significant improvement.Based on these results,the developed sensor system and preliminary theoretical basis was deemed suitable for studying the propagation behavior of submarine seismic waves generated by underwater drilling and blasting operations.     

多波段隐身兼容中的几个矛盾问题的分析

多波段隐身兼容是隐身技术发展的方向,但是每增加一个隐身内容或波段,都对隐身兼容的实现增加很大的难度。分析了多波段隐身兼容技术中存在的几个矛盾问题,包括1 06μm激光隐身与近红外隐身兼容的矛盾、主被动毫米波隐身兼容的矛盾、10 6μm激光与8～14μm热红外隐身兼容的矛盾,同时探讨了解决这些矛盾问题的方法。     

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.     

热图像与瞄准镜分划图像实时叠加处理系统研究

热像仪是夜战中用于观察和瞄准的重要装备,但目前装备的某些坦克和装甲车辆上的热像瞄准镜,本身并不具有瞄准分划,因而也就很难获取目标更多的信息,限制了对目标进行有效的瞄准射击:为了使其热像瞄准镜同样具有坦克微光瞄准镜所具有的功能,作者利用高速数字信号处理器ADsP21535开发评估板,研究设计了热图像和瞄准镜分划图像实时叠加处理系统,从而较好的解决上述问题.     

基于熵值法的坦克动力舱热工况的综合评价

坦克动力舱的结构和布置有多种型式,为了对不同结构的动力舱热工况的优劣进行对比、评价,必须用量化的指标加以衡量.提出了一种坦克动力舱热工况的评价指标体系,运用熵值法原理科学地确定各评价指标权重,建立了综合评价模型,并对某型主战坦克动力舱的不同布置方案进行了热工况综合评价.     

无线冲击波超压测试系统研究

对比了6种不同弹种的国军标对冲击波测试的要求,总结了现有引线式和存储式冲击波测试方法的优缺点。重点介绍了一种小型无线冲击波测试系统,给出了系统的组成、工作原理及实验结果,实测数据表明该系统工作可靠、使用方便,符合国军标的相关要求。     

轴向应力波作用下的圆柱壳弹塑性后屈曲

为揭示柱壳屈曲变形的发展机理及屈曲波与弹塑性应力波耦合传播间的关系,运用非线性显示动力学有限元分析方法对承受轴向高速冲击载荷作用下柱壳的弹塑性后屈曲过程进行了研究。分析结果表明:对于柱壳在轴向高速冲击下的弹塑性轴对称动力屈曲,主要屈曲变形发生在柱壳的两端,屈曲变形的产生及发展与应力波在壳中的传播过程密切相关;塑性应力波在整个屈曲过程中起了绝对支配的作用;屈曲波的产生及发展,都与塑性波的传播及反射有关;弹性应力波由于在整个屈曲过程中持续的时间极短,处于次要的地位。