直升机工作特性建模与飞行性能仿真

以涡轮轴发动机工作特性建模为中心,对某系列直升机飞行性能进行仿真研究,力争实现对直升机实施"基于状态的维修"。讨论了直升机飞行性能和涡轮轴发动机特性的表述方法,建立了涡轮轴发动机的数学模型,并讨论了其解法与应用。基于发动机台架性能仿真程序对该模型进行简化,得到涡轮轴发动机工作过程的热力学模型。对发动机性能进行计算完成飞行性能仿真,应用结果表明该方法是可信、高效的。     

二维超声速空气引射器启动特性试验研究

（静）超声速引射器是高空模拟试车台的重要组件,在发动机启动前利用引射器对试验舱预抽真空可避免发动机启动初始时刻燃气漏入试验舱造成燃气在发动机中分离,对获取发动机在高空环境下的完整推力特性具有重要意义。而该工况下超声速引射器的启动过程是引射器工作过程中最为恶劣的工况,设计不合理的引射器会导致启动压力过高甚至不能实现启动。建立了缩比超声速空气引射器试验台对超声速引射器的启动特性进行研究,采用压力测量方法结合纹影技术对超声速引射器处于极限启动压比时的流场进行了描述,研究结果表明混合室收缩比越小,引射器极限启动压比越低。同时给出了定位超声速引射器不启动原因的判据：当引射器不启动是由引射总压不足引起时,盲腔压力在引射总压提高时降低,并在临界启动状态下达到最小值;而由混合室收缩比过小导致的引射器不启动在引射总压提高时盲腔压力单调上升。     

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。     

Research on the influences of confining pressure and strain rate on NEPE propellant: Experimental assessment and constitutive model

In order to study the influences of confining pressure and strain rate on the mechanical properties of the Nitrate Ester Plasticized Polyether (NEPE) propellant, uniaxial tensile tests were conducted using the self-made confining pressure system and material testing machine. The stress-strain responses of the NEPE propellant under different confining pressure conditions and strain rates were obtained and analyzed. The results show that confining pressure and strain rate have a remarkably influence on the mechanical responses of the NEPE propellant. As confining pressure increases (from 0 to 5.4 MPa), the maximum tensile stress and ultimate strain increase gradually. With the coupled effects of confining pressure and strain rate, the value of the maximum tensile stress and ultimate strain at 5.4 MPa and 0.0667 s⁻¹ is 2.03 times and 2.19 times of their values under 0 MPa and 0.00333 s⁻¹, respectively. Afterwards, the influence mechanism of confining pressure on the NEPE propellant was analyzed. Finally, based on the viscoelastic theory and continuous damage theory, a nonlinear constitutive model considering confining pressure and strain rate was developed. The damage was considered to be rate-dependent and pressure-dependent. The constitutive model was validated by comparing experimental data with predictions of the constitutive model. The whole maximum stress errors of the model predictions are lower than 4% and the corresponding strain errors are lower than 7%. The results show that confining pressure can suppress the damage initiation and evolution of the NEPE propellant and the nonlinear constitutive model can describe the mechanical responses of the NEPE propellant under various confining pressure conditions and strain rates. This research can lay a theoretical foundation for analyzing the structural integrity of propellant grain accurately under working pressure loading.     

Influence of a liquid-filled compartment structure on the incoming shaped charge jet stability

Liquid-filled compartment structure consists of a bulk steel plate with matrix blind holes which are filled with liquid and a steel front plate to seal up the liquid with rings and bolts.The liquid-filled compart-ment structure can resist the shaped charge warhead effectively.This paper presents experimental and theoretical investigations of the penetration ability of the residual shaped charge jet emerging from the liquid-filled compartment structure after the penetration process at different impact angles.On the basis of shock wave propagation theory,the influence of the liquid-filled compartment structure on jet sta-bility is analysed.The interferences of the liquid backflow caused by a reflected shock wave and a back plate on jet stability under different impact angles are also examined.In addition,the range of the disturbed velocity segments of the jet at different impact angles and the penetration ability of the re-sidual jet are obtained.A theoretical model is validated against the experimental penetration depths.     

Electronic warfare in the optical band: Main features,examples and selected measurement data

The paper presents the possibilities of, and methods for, acquiring, analysing and processing optical signals in order to recognise, identify and counteract threats on the contemporary battleground. The main ways electronic warfare is waged in the optical band of the electromagnetic wave spectrum have been formulated, including the acquisition of optical emitter signatures, as well as ultraviolet (UV) and thermal (IR) signatures. The physical parameters and values describing the emission of laser radiation are discussed, including their importance in terms of creating optical signatures. Moreover, it has been shown that in the transformation of optical signals into signatures, only their spectral and temporal parameters can be applied. This was confirmed in experimental part of the paper, which includes our own measurements of spectral and temporal emission characteristics for three types of binocular laser rangefinders. It has been further shown that through simple registration and quick analysis involving comparison of emission time parameters in the case of UV signatures in “solar-blind” band, various events can be identified quickly and faultlessly. The same is true for IR signatures, where the amplitudes of the recorded signal for several wavelengths are compared. This was confirmed experimentally for UV signatures by registering and then analyzing signals from several events during military exercises at a training ground, namely Rocket Propelled Grenade (RPG) launches and explosions after hitting targets, trinitrotoluene (TNT) explosions, firing armour-piercing, fin-stabilised, discarding sabots (APFSDS) or high explosive (HE) projectiles. The final section describes a proposed model database of emitters, created as a result of analysing and transforming the recorded signals into optical signatures.     

聚碳硅烷纤维的空气不熔化反应动力学研究

以高压法聚碳硅烷(Polycarbosilane,PCS)纤维的空气不熔化为例,采用多曲线积分法研究了PCS纤维空气不熔化反应动力学。结果表明,高压法PCS纤维的空气不熔化反应活化能约60~70 kJ/mol。通过研究不同的机理函数的对数与温度倒数的关系,结果表明,PCS纤维空气不熔化过程由随机成核和生长机理(n=3)的表面反应控制,根据该反应机理,同样得到高压法PCS的空气不熔化反应活化能约60~70 kJ/mol,指前因子A约为77.64。     

高电阻率地域电气接地系统综合方案

电气接地是保障电气系统正常运行和设备安全的重要措施。在高电阻率地域,将接地电阻降到设计值非常困难。论述了综合利用构筑物的导电结构、新型人工接地材料,通过接地系统的总体优化,在减小接地电阻的同时,降低接地系统造价。还重点探讨了地下指挥工程接地系统的设计问题。为接地系统优化设计和工程应用提供借鉴。     

国外先进战斗机电子对抗系统的发展

首先介绍国外F-22和F-35为代表的先进战斗机的电子战系统和其他欧洲先进战斗机的电子战系统等发展情况。对未来战斗机电子战系统的综合特点和基本功能进行了比较详细的分析和描述,最后叙述了未来战斗机的航空电子系统将设计成为一体化共平台,电子战系统与一体化的航空电子系统融合成为一个功能系统,并描述了这种先进的电子战系统的作战能力。     

粘土的结构性与超固结

土体中的结构性与超固结都可以使土体表现出超固结特性。通过结构性与超固结对土体力学性质影响比较,揭示了它们对土体力学性质的影响存在本质差异,需要将它们区分开来。基于土体中的结构性、超固结对土体固结特性的影响差异及粘土的正常固结线的唯一性,提出了粘土的结构性与超固结的定量描述方法,据此对原状粘土进行分类。土体的结构性主要包括土体的化学胶结等真正改变了土样结构的因素,用结构性参数来定量描述,而次固结、干缩作用可看成与超固结作用一致,一起用超固结参数来定量描述。