并购的协同效应分析

并购是企业扩张的一条重要途径,对我国经济的影响日益凸现。论文对并购的协同效应的概念、内容等进行了重新构建,提出了从产业高度认识并购协同效应的重要意义,并对我国目前并购的协同效应从改变产业结构、改善公司治理、优化资本结构等方面进行了分析。     

无源雷达系统可靠性分析

建立无源雷达系统可靠性数学模型,给出系统基本可靠度、任务可靠度、平均故障间隔时间(MTBF)表达式。最后通过实际运算,分析无源雷达系统的可靠性。对节约其保障维修费用和发挥作战效能有现实意义。     

IC卡读写器用的一种四元振子天线分析

介绍用于IC卡读写器系统中一个天线阵的实际例子 ,天线由四单元半波振子组成 ,振子之间为平行双线馈电 ,通过同轴电缆接到直立的平行双线 ,在阵列几何中心向阵列两侧馈电 (并馈 ) ,分析了带有接地板的天线方向图及其随激励的变化 ,给出了阵列天线输入端驻波比频率特性的测试结果     

PIV技术在涡轮叶栅内流场试验中的应用

对三种高环流系数叶片叶型和五种相对节距的涡轮叶栅进行内流场试验研究,在研究中采用粒子成像测试技术(PIV),获得叶栅内S1m流面的全流场流动信息,并采用拓扑图论原理经计算机进行图像处理,获得S1m流面的速度矢量场和旋度场。对所获得的叶栅内流场分析表明,随着涡轮环流系数的增加,液体流经叶栅的能量损失增大;随着叶栅相对节距的增大,叶栅内脱流区增大、漩涡区的旋度值随之增大。该研究结果将给涡轮叶型的设计提供有价值的参考。     

2.5维编织复合材料弹性性能的理论研究

以2.5维编织复合材料细观几何结构的深入研究为基础,详细分析了其单元体模型。采用圆形纤维束截面和经纱沿正弦曲线分布的假设,建立了基于刚度平均的2.5维编织复合材料弹性性能分析预报模型,并采用M atlab编程用于计算该类材料的力学性能。在材料经向纱线密度不变的情况下,预测了弹性性能随纬向纱线密度的变化规律。通过理论计算结果与实验值对比,验证了该方法的正确性。     

基于分数阶模糊函数延时对消的海面运动弱目标检测

研究了分数阶模糊函数的时移特性,根据此特性提出了基于分数阶模糊函数延时对消的海面运动弱目标检测方法.通过对IPIX实测数据验证表明,该方法在增加目标与杂波FRFT峰值差、提高信杂比以及检测概率等方面都明显优于仅对回波作分数阶模糊函数.设置适当的恒虚警检测门限,该检测方法能够达到更好的检测效果.     

一种基于更动影响域分析的回归测试方法

为减少回归测试成本、提高效率,提出了一种基于更动影响域分析的回归测试方法,详细说明了更动类型,并针对每种类型提出了对应的影响域分析策略.研究表明,该方法技术指导性好,易使用,提高了回归测试的充分性,进一步保证了测试质量.     

直线气动舵机加载测试系统设计与实现

直线气动舵机加载测试系统用来模拟铰链力矩对直线舵机进行加载,同时也可对舵机的静态和动态指标进行测试。通过对力加载系统实现形式的分析,给出了系统总体方案和部件选型,对系统调试过程中遇到的问题进行了分析说明,最后给出了系统的测试结果,完全满足系统指标要求。     

Recent development of casing treatments for aero-engine compressors

Casing treatment is a mature stabilization technique which has been widely applied on aero-engines for modern aircrafts and turbo-chargers for automobiles. After the investigations of half century since the 1960s, this technique has been well developed for various configurations with different effectiveness. From the perspective of stabilization mechanism, this paper roughly categorizes the configurations of casing treatment into two types: traditional ones which work by affecting the flow structure of blade tip region; a novel one named as Stall Precursor-Suppressed (SPS) casing treatment. The effectiveness of both types will be demonstrated for their applications on axial compressors and centrifugal compressors with uniform or distorted inlet. And the stabilization mechanism of casing treatments for regular types and SPS one will also be explained respectively. In addition, this review will summarize the methodologies of casing treatments with the numerical simulations for regular grooved configurations and the eigenvalue approach for SPS casing treatment. Looking forward to the future of compressor stabilization, casing treatment technique will still exist as a general and inexpensive option, and the exploration for its effectiveness and mechanism will be deeper with the development of computational fluid dynamics and advanced measurement techniques.     

Infrared radiation characteristics of a hypersonic vehicle under time-varying angles of attack

Hypersonic vehicles emit strong infrared(IR) radiation signatures that can be treated as a detecting source for object identification and routine diagnosis. This paper is aimed at examining the intrinsic radiation characteristics of a Boost-Glide Vehicle(BGV) under the condition of various Angles of Attack(AOAs). A two-temperature model considering the thermal and chemical nonequilibrium effects is coupled with Navier-Stokes equations solved by the finite volume technique.A gas–solid conjunction heat transfer model is also added into the fluid solver to simulate the surface temperature of the vehicle. The radiative transfer equation is solved with Line of Sight(LOS)algorithm. The computational results for a Hypersonic Technology Vehicle-2(HTV-2) type vehicle show that radiances of the vehicle are strongly dependent on the surface temperature. The presence of AOA results in the significant difference of the surface temperature. Infrared radiation characteristics are also changed in intensity and spectral band due to the AOA. Simulations are performed with two time-varying AOAs. Transient results indicate that the variation of AOA does have a great effect on the infrared radiance and is closely related to observation angle, spectral band, angle size,angular velocity and time history.