消防监督体制改革及思考

为适应新形势下市场经济体制的需要,改革消防监督体制势在必行。分析了目前消防监督工作面临的困难和问题,并从立法、建立消防安全评价体系、发展中介力量、建立消防安全备案制、改革火灾调查职能等方面提出了解决办法。     

泰氟隆烧蚀产物对电子密度的影响

采用WNND格式,对有泰氟隆烧蚀产物引射的化学非平衡NS方程进行了数值模拟。采用7组元纯空气化学反应和19组元、28种反应的空气—泰氟隆化学反应系统,对照计算了壁面有泰氟隆烧蚀产物引射和纯空气绕流两种流场,研究了泰氟隆烧蚀产物对电子密度的影响。     

高温燃气与不同构型的再生冷却面板对流传热的数值模拟

对高温燃气与带有平行冷却通道的再生冷却面板之间的三维耦合传热开展了数值研究,其中冷却通道内冷却剂为超临界压力煤油,并结合理论分析探讨了冷却面板构型对耦合传热的影响。结果表明:随燃气侧壁厚以及冷却通道宽度和高度的增大,燃气侧壁面温度升高,热流密度降低。研究还发现:冷却通道不同壁面传递给煤油的热量占比几乎不随燃气侧壁厚变化,但随冷却通道宽度和高度的改变而变化。     

瞄准线稳定精度试验方法研究

通过对目前观瞄仪的瞄准线稳定精度试验方法分析,认为现有的方法测试精度差、效率低,构建了一套由观瞄仪、三轴转台、平行光管、视频记录处理装置等组成的试验系统,提出了一种基于图像处理的瞄准线稳定精度试验方法,该方法在某型军方竞标试验中得到成功应用.     

作战构想风险性评估模型

作战构想是制定作战方案、定下作战决心的依据,在任务规划中起着承上启下的作用,意义重大.针对构想风险难以定量分析的难题,基于作战构想的组成要素、战场情况分析研判数据,从周密性、机动、打击、防护等角度构建了作战构想风险性评估指标体系,并提出了对各个指标进行定量分析的评估模型.最后,采用实例对提出的方法进行了验证,结果表明,该方法可行有效,避免了定性分析中存在的主观性、模糊性等不足,为作战构想评估提供了新的思路和方法.     

预制破片侵彻靶板临界跳飞角变化规律

为研究预制破片侵彻靶板的临界跳飞角变化规律,采用数值仿真的方法对预制破片侵彻靶板的临界跳飞角变化规律进行分析.利用LS-DYNA有限元仿真软件,建立了不同形状预制破片侵彻靶板的仿真模型,通过与试验结果相对比的方式验证了模型的可信性.分析了破片形状、破片形状比例系数、破片入射速度和靶板厚度对临界跳飞角的影响规律.分析结果表明:在相同条件下,破片临界跳飞角按照圆柱形、方形和球形预制破片的顺序依次减小,随着破片入射速度和破片形状比例系数的增大而增大,并在一定范围内随着靶板厚度的增加而减小.     

基于多机载预警雷达的机动目标融合跟踪方法

机动目标跟踪是多机载预警雷达数据融合中的一个难点,传统的卡尔曼滤波本身不足以解决该问题.基于量测噪声协方差估计设计了一种可适用于机动目标的卡尔曼滤波器;引入了协方差交集,提出了一种针对多机载预警雷达数据融合中机动目标跟踪的新方法.仿真实验表明,该方法能够成功稳定地跟踪机动目标,与现有的主流方法相比,该方法的误差性能是最佳的.     

基于区块链的装备数据安全共享方案研究

军事装备大数据是实现军事现代化、智能化的基础,其中,数据共享对实现装备可视化管理、整合装备供应链、优化指挥控制系统等具有至关重要的作用。军事装备数据涉及核心机密,数据的安全共享问题是导致这些技术发展迟缓的关键因素之一。区块链是一种具有去中心化、不可篡改、稳定可靠等特性的分布式链式账本技术,利用区块链技术和云计算可以保障装备数据安全,在军事领域有着广阔的发展前景。本文面向装备数据安全共享业务开展研究,探讨利用基于属性加密技术和智能合约技术解决不同主体间的信任问题,并提出了基于区块链的装备数据安全共享方案,以打破传统装备系统中的“信息孤岛”现象。     

Shock-induced reaction behaviors of functionally graded reactive material

In this paper, the ballistic impact experiments, including impact test chamber and impact double-spaced plates, were conducted to study the reaction behaviors of a novel functionally graded reactive material (FGRM), which was composed of polytetrafluoroethylene/aluminum (PTFE/Al) and PTFE/Al/bismuth trioxide (Bi₂O₃). The experiments showed that the impact direction of the FGRM had a significant effect on the reaction. With the same impact velocity, when the first impact material was PTFE/Al/Bi₂O₃, compared with first impact material PTFE/Al, the FGRM induced higher overpressure in the test chamber and larger damaged area of double-spaced plates. The theoretical model, which considered the shock wave generation and propagation, the effect of the shock wave on reaction efficiency, and penetration behaviors, was developed to analyze the reaction behaviors of the FGRM. The model predicted first impact material of the FGRM with a higher shock impedance was conducive to the reaction of reactive materials. The conclusion of this study provides significant information about the design and application of reactive materials.     

Research progress on advanced rail materials for electromagnetic railgun technology

Electromagnetic railgun attracts more and more attention due to its advantage in speed,cost,and obscurity.It is found that the rail should withstand huge mechanical and thermal shocks during the launching operation.The forms of rail failure are accompanied by gouge,grooving,transition,and arc ablation,etc.The service life of the rail has become a bottleneck restricting the development of elec-tromagnetic railgun technology.A series of researches are carried out to solve rail failure,including analysing the failure mechanism and using various advanced rail materials.This paper provides a comprehensive review of rail materials,including material composition,preparation,microstructure,and properties.We begin from a short background of the requirement of the rail material.Then a detailed investigation of rail materials is described,and the performances of those materials are introduced.Finally,further development prospect of rail material is discussed.