FDTD方法对有孔屏蔽腔的电磁特性分析

介绍了研究有孔腔体电磁特性的一种算法：时域有限差分法（FDTD）,并用FDTD方法对带孔缝机箱的电磁屏蔽特性进行了仿真分析,从而验证该方法对有孔矩形腔屏蔽效能计算的有效性和可靠性。     

论武器装备命名的特点

武器装备命名研究在我国是一个比较新的课题。宏观上分析武器装备命名的特点有助于确立新课题的框架,为进一步深入研究奠定基础。总体而言,武器装备命名有着政治、军事、民族、历史四个方面的特点。     

建筑节能初期设计阶段的能耗模拟与分析

针对建筑节能初期设计阶段,采用建筑环境设计软件Ecotect对某节能示范楼外窗遮阳情况进行模拟分析,得到各朝向外窗的遮阳形式以及大小设计范围,为下一阶段包括外遮阳形式,构造尺寸和各朝向房间的窗墙比、外窗材料选择提供了设计参考.     

动初级高速六相直线感应电机工作特性分析

为了准确刻画对象模型,采用一阶等效电路瞬态涡流分析法对动态边端效应影响下动初级高速六相直线感应电机的参数时变规律进行了定量计算,并通过感应涡流损耗推导得到考虑动态边端效应时电机的等效电路。基于此,通过电磁推力计算及效率评估对动态边端效应影响下电机的工作特性进行了详细分析。利用不同运行速度条件下的有限元仿真及动态实验验证了理论分析和推导的正确性。     

重力势能锁止型外骨骼设计及其效能评价

现存的被动式外骨骼存在助力效果不明显等缺陷。基于人体步态特征,提出了将人体行走过程中的重力势能转化为人体抬腿过程中动能的原理,通过弹簧、曲柄滑块机构、棘轮棘爪机构以及链传动机构的组合,设计了一款被动式下肢机械外骨骼,并通过外骨骼动力学分析和生理消耗指数实验测试的方法进行了外骨骼性能评价。动力学分析结果表明,穿戴外骨骼后髋关节峰力矩总量降低了23.43%,髋关节做功总量降低了30.59%,初步验证了外骨骼的有效性。生理消耗指数实验测试结果表明, 穿戴外骨骼对于短距离动作转换未产生显著效果,但在长距离行走和上坡行走中分别降低了8.1%和10.4%的能量消耗。因此,该下肢外骨骼助力性能得到了验证,为相关领域的研究提供了实例化参考。     

气氧甲烷溅板式层板喷注器燃烧特性试验分析

采用试验方法分别对单喷嘴和多喷嘴溅板式层板喷注器燃烧特性进行研究,考察不同工况下喷注器面板热载情况,得到不同混合比、不同结构参数对燃烧室压力分布和燃烧效率的影响规律。试验结果表明:混合比对多喷嘴喷注器燃烧室压力影响不大,但对燃烧效率有较大影响。对于单喷嘴喷注器,燃烧效率随着混合比的增加而增高。相同条件下,增大扩张角及出口层宽度有利于提高喷注器燃烧效率,但会引起喷注面板热载增大,各喷注器喷注面板均产生不同程度的变形或失效。该结果对于正确指导层板式喷注器的设计以及筛选喷注器结构具有重要意义。     

Survey and technological analysis of laser and its defense applications

The laser technology has made remarkable progress over the past couple of decades.It is being widely employed in diverse domains,such as holography,space sciences,spectroscopy,medical sciences,micro and power electronics,industrial engineering,and most distinctively,as directed energy military weapons.Owing to their active transmissions,laser systems are similar to microwave radars to some extent;however,unlike conventional radars,the laser operates at very high frequencies thus making it a potent enabler of narrow-beam and high energy aerial deployments,both in offensive and defensive roles.In modern avionics systems,laser target indicators and beam riders are the most common devices that are used to direct the Laser Guided Weapons(LGW)accurately to the ground targets.Additionally,compact size and outstanding angular resolution of laser-based systems motivate their use for drones and unmanned aerial applications.Moreover,the narrow-beam divergence of laser emissions offers a low probability of intercept,making it a suitable contender for secure transmissions and safety-critical operations.Furthermore,the developments in space sciences and laser technology have given syner-gistic potential outcomes to use laser systems in space operations.This paper comprehensively reviews laser applications and projects for strategic defense actions on the ground or in space.Additionally,a detailed analysis has been done on recent advancements of the laser technology for target indicators and range-finders.It also reviews the advancements in the field of laser communications for surveillance,its earlier state of the art,and ongoing scientific research and ad-vancements in the domain of high energy directed laser weapons that have revolutionized the evolving military battlefield.Besides offering a comprehensive taxonomy,the paper also critically analyzes some of the recent contributions in the associated domains.     

Study on energy release characteristics of reactive material casings under explosive loading

Reactive Materials (RMs), a new material with structural and energy release characteristics under shock-induced chemical reactions, are promising in extensive applications in national defense and military fields. They can increase the lethality of warheads due to their dual functionality. This paper focuses on the energy release characteristics of RM casings prepared by alloy melting and casting process under explosive loading. Explosion experiments of RM and conventional 2A12 aluminum alloy casings were conducted in free field to capture the explosive fireballs, temperature distribution, peak overpressure of the air shock wave and the fracture morphology of fragments of reactive material (RM) warhead casings by using high-speed camera, infrared thermal imager temperature and peak overpressure testing and scanning electron microscope. Results showed that an increase of both the fireball temperature and air shock wave were observed in all RM casings compared to conventional 2A12 aluminum ally casings. The RM casings can improve the peak overpressure of the air shock wave under explosion loading, though the results are different with different charge ratios. According to the energy release characteristics of the RM, increasing the thickness of RM casings will increase the peak overpressure of the near-field air shock wave, while reducing the thickness will increase the peak overpressure of the far-field air shock wave.     

【专题】智能化导弹质量检测方法研究

导弹是由各种类型装备组成的综合性很强的复杂系统,智能技术的引入进一步丰富了智能导弹质量特性的内涵,对质量检测和控制提出了更高要求,需要开发与之相适应的检测方法。本文先给出了智能导弹的定义和内涵,分析了其智能特性,接着概述了智能化导弹的结构组成,分析了各智能部件的功能和结构组成,从智能化导弹结构组成及测试参数、智能化部件的嵌入式软件作用、零部件机械加工精度等方面提出了智能化导弹质量检测的需求,并在此基础上结合智能化制造等技术提出了在线检测、自动检测/测试、BIT自检、软件测评技术以及弹载遥测的智能化导弹质量检测途径和方法。     

预报风强度对火箭最大气动载荷精度影响及建模分析

针对不同预报风强度的精度以及其对应的最大气动载荷预报值精度的研究文献极少。以某地区实况风为基准,分别对不同预报风强度的精度以及其对应的最大气动载荷预报值精度特征进行了分析,并利用多元线性回归方法建立了订正模型,结果表明在预报日数第1～11天,预报风强度越大,预报风精度及其对应的最大气动载荷预报值精度越高;利用多元线性回归方法可提高最大气动载荷预报值精度,且预报风强度越小,最大气动载荷预报精度提高越明显。这些发现在火箭发射前的飞行保障及安全决策方面具有参考价值。