涡轮叶顶间隙密封冷却综合特性评估方法

为了评估带气膜冷却涡轮叶顶间隙的密封和冷却综合特性,在强化传热综合因子中引入气膜冷却效率,推导出了密封冷却综合因子表达式.其物理含义为：主流在一定功率作用并喷入一定量冷气时,被评估的传热方式与基准传热方式传热性能比.数值模拟获得了动叶顶部隔板迷宫间隙气膜冷却和密封特性数据,利用该因子对密封冷却综合特性进行了评估.结果表明：在研究的吹风比内,迷宫结构的冷却效果相比于平叶顶间隙有所改进,随着吹风比减小,改进程度先增加后减小;密封效果只有在高吹风比时有所改进.密封冷却综合特性都得到了改进,吹风比越小,密封冷却综合特性越好.     

天/地基多平台空间目标光电观测时效性分析

针对如何部署光学探测设备才能更好实现对空间目标的高精度高频度监视问题,考虑光照条件、相对关系及探测性能,构建了天/地基空间目标探测与成像仿真模型;按照轨道特征选取了94颗LEO（Low Earth Orbit,低地球轨道）卫星、63颗GEO（Geosynchronous Earth Orbit,地球同步轨道）卫星和18颗大椭圆轨道卫星,选用春夏秋冬典型季节的特定时间长度,仿真分析了国内地基、南北极科考站、LEO卫星、准GEO卫星等多平台光电手段的位置探测和成像观测能力;比对分析地基平台纬度和季节、天基平台轨道高度和倾角对探测能力的影响得出：南北极科考站相比于国内站点可提高重点季节的探测时效性,98°倾角LEO平台对低轨目标成像时效性方面更具优势,等.在此基础上,提出了我国空间目标光电观测设备天地一体的布局构想.     

FM73M 胶膜及其与PMI 泡沫芯的胶接机理

采用DSC研究了不同升温速率下FM73M胶膜的固化反应特性,根据DSC曲线得到了胶膜的凝胶化温度和固化温度等工艺参数,建立了其固化动力学模型,确定胶膜的固化参数为(125±2)℃/90min.在此基础上,通过SEM研究了胶膜在PMI泡沫芯材内的分布以及界面结合状况(界面润温情况、气孔、缺陷),分析了胶膜与泡沫芯的胶接机理.     

倾斜射流撞壁实验研究及液膜几何参数建模

倾斜射流撞壁在液体火箭发动机液膜冷却、射流撞壁雾化等领域具有广泛的应用。为了研究倾斜射流撞击壁面后形成的液膜的关键特征，开展单股圆柱射流撞击壁面的实验研究。从实验中研究各射流参数对液膜外形的影响规律，继而开展理论建模，获取液膜外形的关键几何参数表达式。实验研究发现随着射流倾角增大，液膜长度减小而宽度增大，随着射流孔径和射流速度增大液膜长度和宽度均增大这一定性规律。理论分析得到了液膜最大宽度位置与液膜对称面的夹角近似等于射流倾角α，液膜的长宽比近似等于1+cot α。通过进一步分析得到液膜宽度、最大宽度距撞击点的距离、液膜长度这几个液膜关键参数的表达式。建立的液膜几何参数表达式预测结果与实验结果的误差均在20%以内。     

Team effectiveness evaluation and virtual reality scenario mapping model for helicopter emergency rescue

The application of helicopter emergency rescue is becoming increasingly widespread, but the flight crew training in this area is still difficult due to high cost and risk. Nevertheless, with the development of Virtual Reality (VR) technology, virtual simulation has become a significant role in crew training of helicopter rescue. During the implementation of VR-based training, how to transform complex real tasks into VR scenarios and how to evaluate the performance of crew are of great importance. To address these issues, a novel VR-based R-E-A-D (Report, Evaluate, Agree, Do) evaluation model for training is proposed, which is suitable for complex missions with multiple tasks, multiple scenarios, and multiple people. Then, a mapping method of VR scenarios is put forward, which can transform the real tasks into virtual scenarios to serve the virtual simulation training. Finally, an experiment is carried out to verify the feasibility of the evaluation method and virtual scenario mapping method.     

喷雾液滴撞击液膜影响参数及流动机理分析

液滴撞击壁面是喷雾冷却中最常见的现象。使用计算流体力学软件中的Volume of Fluid （VOF）模型对液滴撞击壁面过程进行了数值模拟研究，研究了不同参数的液滴撞击壁面液膜过程的水花形态特点，针对水花高度和直径等参数进行了分析，通过运动间断理论和无量纲参数Re和We的变化分析了不同参数对液膜的流动特征和水花形态的影响及水花产生机理。结果表明：大液滴撞击液膜时能够改善液膜的流动状态；过大的液滴速度会产生大量飞溅及表面干涸；液滴撞击薄液膜时，液膜的流动性较好，当0.6<h*<1.2时，液膜的流动性不随液膜厚度改变。     

Nonlinear dynamic behavior of a flexible asymmetric aero-engine rotor system in maneuvering flight

Aero-engine rotor systems installed in aircraft are considered to have a base motion. In this paper, a flexible asymmetric rotor system is modeled considering the nonlinear supports of ball bearings and Squeeze Film Dampers (SFDs), and the dynamic characteristics of the rotor system under maneuvering flight are systematically studied. Effects of the translational accelerative motions, the angular motions and the pitching flight with combined translational and angular motions on nonlinear dynamic behavior of the rotor system are investigated. The results show that, due to the nonlinear coupled effects among the rotor, ball bearings and SFDs, within the first bending resonance region, responses of the rotor show obvious nonlinear characteristics such as bistable phenomenon, amplitude jumping phenomenon and non-synchronous vibration. Translational acceleration motion of the aircraft leads to axis offset of the rotor system and thus results in the reduction and the final disappearance of the bistable rotating speed region. The pitching angular motion mainly affects rotational vibration of the rotor system, and thus further induces their transverse vibrations. For the pitching flight with combined translational and angular motions, a critical flight parameter is found to correspond to the conversion of two steady responses of the rotor system, in which one response displays small amplitude and synchronous vibration, and the other shows large amplitude and non-synchronous vibration.     

基于薄膜热电堆的新型高温瞬态热流密度传感器的研制

目前针对国内薄膜瞬态热流传感器一致性较差、制备工艺不成熟等问题，提出了一种基于光刻工艺和离子束溅射镀膜工艺的制备方法，200对T型金属薄膜热电偶沉积在10mm×10mm的水冷块上，测量1μm的氧化铝热阻层温差，从而得到瞬态热流密度值。对新型高温瞬态热流密度传感器进行比对法标定，一致性误差为0.211%，即工艺的一致性约为99.79%。实验表明，研制的新型高温瞬态热流密度传感器的一致性好,制备工艺具备良好重复性和可移植性，能够满足高温瞬态热流检测需要，为热流传感器的推广应用及标准化、批量化生产提供了良好的技术支撑。     

基于效能的先进战斗机航电系统动态重构方法

为满足未来先进战斗机全战斗过程的对敌压制能力需求，分析了作战任务与航电系统支持能力间的关系，建立了"作战任务-航电能力-资源需求"间的关系矩阵和航电系统效能模型；以最大化全飞行阶段航电功能整体效能和飞行安全为目标设计了针对不同作战场景的航电系统动态重构策略及重构流程；通过数值分析，对比了动态重构航电系统与静态配置航电系统在不同作战区边界的效能，表明动态重构特性能有效提高战斗机各阶段的作战效能，提高有限资源条件下的阶段优势。     

旋转状态气膜冷却的大涡模拟

用大涡模拟的方法考察了静止和旋转状态下有直径4mm,35°流向倾斜圆柱孔的平板上气膜冷却的流动和换热,将静止状态预测的速度型与实验数据进行对比验证了计算结果的合理性.在固定吹风比为0.5、冷气进口雷诺数为2 588的情况下,静止和旋转状态的涡量分布出现明显差异,且旋转状态射流与主流相互作用的剪切层沿展向偏离气膜孔的几何中心线,使得原有对转涡对不再关于孔中心线对称分布,漩涡识别技术也发现典型的涡结构受旋转影响发生形态和运动规律的改变,进而影响湍流结构对主流和冷气掺混的作用.