防区外空地反辐射导弹攻击区及作战效能仿真

建立了防区外空地反辐射导弹运动数学模型，结合给定的导引规律形成控制信号，通过空地反辐射导弹的全弹道仿真，对反辐射导弹攻击区及作战效能进行了计算分析，仿真结果表明；机载反辐射导弹命中精度高，杀伤概率大，是压制地面雷达设备的一种有效武器。     

实验误差对材料参数实验结果影响的估计方法及其指标

 本文讨论了造成材料参数实验结果分散性的两个来源,给出了估计实验误差对实验结果影响的一般分析方法,提出了评价这种影响的几个指标。本文给出的例子表明这一方法是合理的和有效的。     

微叠层材料及其制备工艺研究进展

着重论述了各种微叠层材料及其制备方法，认为电子束物理气相沉积是制备微叠层材料的有效方法：同时对微叠层材料性能方面的研究也作了相应的论述，并展望了我国今后在这方面的研究方向。     

基于定性定量知识集成的液体火箭发动机故障诊断方法

首先从知识表示和处理的角度对 SDG方法进行了简要的分析 ,然后根据液体火箭发动机系统的特点 ,提出了改进的途径 ,通过建立只包含发动机测量变量的 SDG,对故障模式进行初步诊断 ,然后对不能区分的故障模式采取加入适当定量信息的办法来进行进一步诊断 ,并对液体火箭发动机中出现的多故障模式建立了诊断方法。测试结果表明本文所提出的方法是可行的     

三维整体编织碳/酚醛复合材料烧蚀表面状态测试与分析

为了更好地研究三维整体纺织碳／酚醛复合材料的成型工艺对材料烧蚀性能的影响，选用不同纤维体积分数和不同编织结构的碳／酚碳复合材料试样，进行烧蚀试验，利用TalyScan150型表面粗糙度测试仪对试样烧蚀后的表面进行测试，并采用多种分析方法对测试结果进行分析。从分析结果可以看出三维四向结构的碳／酚醛复合材料随着纤维体积分数的增加，烧蚀性能变好，较低纤维体积分数（50％）的三维五向结构碳／酚醛复合材料具有较好的烧蚀性能。     

飞机平尾偏角引动量的自动检测

根据飞机纵向操纵系统工作原理和纵向平飞操纵原理，推导了平衡速度与平尾偏角的关系式，分析了操纵杆力、平衡速度、平尾偏角的相互关系及平衡速度的调整原理。结合平尾偏角检测现状，提出了一种利用机械臂自动检测飞机平尾偏角的方法，成功研制了平尾偏角自动检测仪，并用于平衡速度的调整。反复检测表明：该检测仪可取代目前广泛使用的人工检测方法，提高了飞机维修保障能力，具有较大的推广前景。     

跨音速压气机动静叶排相干的三维非定常流动数值分析

采用时空二阶精度ＮＮＤ显式差分格式求解三维Ｅｕｌｅｒ方程，对跨音速压气机级中动静叶排相干形成的非定常流动进行了数值分析。除动静叶排流动的控制方程体系、数值方法外，着重讨论了动静叶排计算域、网格以及边界条件的处理。对某压气机第１级动静叶排相干的非定常流场的计算，给出了叶片表面的马赫数分布、压力波动幅值，以及叶片槽道中瞬态密度等值线等，并分析了结果的合理性。     

对旋轴流风机非定常流场数值模拟

利用全隐格式的非稳态压力修正求解方法,分析和研究了对旋叶轮级间流场非定常流动情况,上游尾迹与下游叶片位势作用对流场的影响,并与动态实验结果进行了有益的对比.结果表明:非定常流场的计算更能反映叶轮机实际运行性能,如果能很好地组织对旋叶轮的非定常流动,还可以进一步提高其压比和效率.     

Influence of TiB2 particles on machinability and machining parameter optimization of TiB2/Al MMCs

In situ formed TiB₂ particle reinforced aluminum matrix composites (TiB₂/Al MMCs) have some extraordinary properties which make them be a promising material for high performance aero-engine blade. Due to the influence of TiB₂ particles, the machinability is still a problem which restricts the application of TiB₂/Al MMCs. In order to meet the industrial requirements, the influence of TiB₂ particles on the machinability of TiB₂/Al MMCs was investigated experimentally. Moreover, the optimal machining conditions for this kind of MMCs were investigated in this study. The major conclusions are: (1) the machining force of TiB₂/Al MMCs is bigger than that of non-reinforced alloy and mainly controlled by feed rate; (2) the residual stress of TiB₂/Al MMCs is compressive while that of non-reinforced alloy is nearly neutral; (3) the surface roughness of TiB₂/Al MMCs is smaller than that of non-reinforced alloy under the same cutting speed, but reverse result was observed when the feed rate increased; (4) a multi-objective optimization model for surface roughness and material removal rate (MRR) was established, and a set of optimal parameter combinations of the machining was obtained. The results show a great difference from SiC particle reinforced MMCs and provide a useful guide for a better control of machining process of this material.     

High temporal resolution global PWV dataset of 2005–2016 by using a neural network approach to determine the mean temperature of the atmosphere

Atmospheric water vapour plays an important role in phenomena related to the global hydrologic cycle and climate change. However, the rapid temporal–spatial variation in global tropospheric water vapour has not been well investigated due to a lack of long-term, high-temporal-resolution precipitable water vapour (PWV). Accordingly, this study generates an hourly PWV dataset for 272 ground-based International Global Navigation Satellite System (GNSS) Service (IGS) stations over the period of 2005–2016 using the zenith troposphere delay (ZTD) derived from global-scale GNSS observation. The root mean square (RMS) of the hourly ZTD obtained from the IGS tropospheric product is approximately 4 mm. A fifth-generation reanalysis dataset of the European Centre for Medium-range Weather Forecasting (ECMWF ERA5) is used to obtain hourly surface temperature (T) and pressure (P), which are first validated with GNSS synoptic station data and radiosonde data, respectively. Then, T and P are used to calculate the water vapour-weighted atmospheric mean temperature (Tm) and zenith hydrostatic delay (ZHD), respectively. T and P at the GNSS stations are obtained via an interpolation in the horizontal and vertical directions using the grid-based ERA5 reanalysis dataset. Here, Tm is calculated using a neural network model, whereas ZHD is obtained using an empirical Saastamoinen model. The RMS values of T and P at the collocated 693 radiosonde stations are 1.6 K and 3.1 hPa, respectively. Therefore, the theoretical error of PWV caused by the errors in ZTD, T and P is on the order of approximately 2.1 mm. A practical comparison experiment is performed using 97 collocated radiosonde stations and 23 GNSS stations equipped with meteorological sensors. The RMS and bias of the hourly PWV dataset are 2.87/?0.16 and 2.45/0.55 mm, respectively, when compared with radiosonde and GNSS stations equipped with meteorological sensors. Additionally, preliminary analysis of the hourly PWV dataset during the EI Niño event of 2014–2016 further indicates the capability of monitoring the daily changes in atmospheric water vapour. This finding is interesting and significant for further climate research.