复合材料加筋板冲击后损伤容限研究

研究复合材料加筋板受冲击后的损伤演化具有较高的工程应用价值。首先,以某型无人机拟应用的复合材料加筋壁板(T300/BA9913)为研究对象,对其进行低速冲击试验;在壁板中央处和肋与壁板胶结处进行冲击,其冲击能量取6.67 J/mm,测量凹坑深度和分层损伤面积。然后,应用商业软件ABAQUS,编写相应的VUMAT子程序对冲击损伤进行模拟,软件中采用适宜的材料模型、单元种类并建立不同属性的接触,把基于应变的三维Hashin准则运用于复合材料单层板的损伤失效准则中去。最后,运用基于断裂韧度的连续的刚度退化方针对材料的刚度折减。将所建立的冲击模型的模拟结果与冲击试验数据进行对比,证明了冲击模型的有效性和准确性。     

活化剂添加量对钢低温渗硼的影响

低温渗硼是一种非常有效的表面强化工艺，由于渗硼过程是在材料的AC1进行，故可以大大减小被处理工件的变形。此工艺对于结构复杂、型腔小、精度要求高的模具特别适用。本文研究了低温粉末渗硼剂中主要活化剂硫脲、氟化钠、氯化铵的添加量对低温渗硼组织与性能的影响，从而确定出合适的活化剂添加量。结果表明：只要低温粉末渗硼剂中硫脲、氟化钠、氯化铵的添加量合适，便能共同作用提高渗速，使渗层均匀、致密，从而提高渗层的耐磨性。     

磁场影响葡萄糖氧化酶活性的研究

以尼龙网作载体，用戊二醛交联将区区糖氧化酶（ＧＯＤ）固定装成酶柱并联结于流动体系中，采用流动注射分光光度法研究磁场对固定化ＧＯＤ催化活性的影响。结果表明，在０℃、５℃、４５℃下以１．０×１０＾－２ｍｏｌ．Ｌ＾－１的葡萄糖为底物及５５℃下以０．１ｍｏｌ＾－１的葡萄糖为底物时，０．２２Ｔ静有显著提高固定化ＧＯＤ的反应速度，且磁场效应与底物浓度及磁场作用时间有关。用动力学方法考察了不同强度的磁场对溶解Ｇ     

基于人工拉格朗日点太阳帆的导航卫星自主定轨技术

为提高导航星座的自主导航能力,提出一种基于人工拉格朗日点太阳帆的导航卫星自主定轨方法。在导航卫星星间测距的基础上,利用太阳帆提供的空间实时位置信息,来消除导航星座的整体旋转和漂移对自主定轨的影响。选用第一类无奇点根数作为状态变量,利用EKF滤波器融合卫星动力学信息及两类测距信息进行自主定轨。利用GPS导航星座的IGS精密星历进行了仿真试验,仿真结果表明了该方法不仅能够保证导航卫星自主定轨的长期稳定性,且与结合星间测距和星间测向的自主定轨方法相比,定轨精度更高。     

Research on windmill starting characteristics of MTE-D micro turbine engine

Micro turbine engine (MTE) is an important kind of propulsion system for miniature unmanned aircraft or missiles, because of its better high-speed performance (than propeller propulsion) and higher propulsion efficiency (obviously than rockets). Windmill start is a common air-starting mode used in micro turbine engine. The windmill starting characteristics are important to the practical use of micro turbine engine. In this paper, the windmill starting characteristics research for a 12 cm diameter (MTE-D) micro turbine engine is carried out by experiment and numerical simulation. The characteristic of rotor mechanical losses at low-speed condition is stud- ied, and the engine common working line of windmill starting process is obtained. Based on the engine windmill characteristics, the propane ignition characteristics under different inflow conditions are researched, and the envelope of propane ignition and propane flameout is determined. The experimental research of fuel supply and ignition characteristics is completed, and the envelope of fuel supply and ignition is obtained. The windmill stage, propane ignition stage, fuel ignition stage and acceleration process from idling-speed to 80% full speed of MTE-D micro turbine engine is optimized, and the optimization windmill starting parameters are collected. The successful wind-mill starting experiment under this condition with engine speed up to 80% full speed indicates that these starting parameters are reasonable. All the starting parameters of MTE-D micro turbine engine obtained in this work are dimensionless parameters, and the conclusions obtained in this study have some reference to other micro turbine engines with the similar structural form and starting process.     

Experimental and numerical studies of a lean-burn internally-staged combustor

A lean-burn internally-staged combustor for low emissions that can be used in civil avi-ation gas turbines is introduced in this paper. The main stage is designed and optimized in terms of fuel evaporation ratio, fuel/air pre-mixture uniformity, and particle residence time using commer-cial computational fluid dynamics （CFD） software. A single-module rectangular combustor is adopted in performance tests including lean ignition, lean blowout, combustion efficiency, emis-sions, and combustion oscillation using aviation kerosene. Furthermore, nitrogen oxides （NOx） emission is also predicted using CFD simulation to compare with test results. Under normal inlet temperature, this combustor can be ignited easily with normal and negative inlet pressures. The lean blowout fuel/air ratio （LBO FAR） at the idle condition is 0.0049. The fuel split proportions between the pilot and main stages are determined through balancing emissions, combustion efficiency, and combustion oscillation. Within the landing and take-off （LTO） cycle, this combustor enables 42%NOx reduction of the standard set by the 6th Committee on Aviation Environmental Protection （CAEP/6） with high combustion efficiency. The maximum board-band pressure oscillations of inlet air and fuel are below 1%of total pressure during steady-state operations at the LTO cycle specific conditions.     

低能自由空气电离室优化设计

借助于空气比释动能的基本定义和概念以及空气比释动能绝对测量的理论方法,分析了自由空气电离室可以作为空气比释动能绝对测量方法的原理和条件。通过平板型与圆柱型自由空气电离室的优劣比较,选择平板型作为研究对象,详细介绍了经典的平板型自由空气电离室,并通过理论分析计算以及模拟计算的方法,优化设计包括:光阑半径、空气衰减长度、极间距等低能自由空气电离室的关键几何尺寸,以最小化空气比释动能测量时产生的总不确定度。     

MEO导航卫星在轨放气产生的干扰力矩研究

摘要： 针对多颗MEO导航卫星太阳翼展开后产生比较明显的干扰力矩,对卫星稳定控制产生了一定影响的现象,本文根据动力学模型、姿态、角速度和飞轮转速变化,给出了干扰力矩计算方法,并结合多颗卫星在轨遥测数据进行计算,得出放气期间产生的干扰力矩.通过使用此干扰力矩进行仿真得出,卫星模拟器结果和在轨表现基本一致.此研究有助于优化卫星飞控流程,并指导卫星放气孔设计.     

Earth–Moon low energy trajectory optimization in the real system

The problem of the Earth–Moon low energy trajectory optimization in the real system (the model defined by the JPL ephemeris DE405) is considered in this paper. First, this problem is investigated in the model of circular restricted three-body problem, since the fuel consumption is closely related to the Jacobi integral of the transfer trajectory, a method based on Jacobi integral is proposed and eight optimal trajectories are obtained. These optimal trajectories provide initial information (the flight time and the braking velocity impulse) to search the optimal low energy trajectories in the real system through optimization techniques. Considering the merit and drawback of particle swarm optimization and differential evolution algorithm in solving the space trajectory problem, an improved cooperative evolutionary algorithm is put forward. Result shows that the low energy trajectories in the real system are more fuel-efficient than the corresponding ones under the circular restricted three-body problem.