Mg粉/CO2粉末火箭发动机点火试验研究

初步设计了粉末火箭发动机,并以Mg粉作为燃料、CO2作为氧化剂进行了点火试验.研究结果表明,在一定的压强和温度下,利用空气与Mg粉的燃烧放热可成功引燃Mg粉/CO2,且在关闭空气后达到自持燃烧；燃烧室壁面沉积较多,主要以MgO为主,还有一部分未燃烧的Mg；通过该试验验证了Mg粉/CO2粉末火箭发动机方案的可行性.     

固体火箭发动机概率设计数字模拟

应用数字模拟技术，对固体火箭发动机进行概率设计，并将计算结果与用一次二阶矩可靠度分析方法得到的结果进行比较，结果表明，在应力和强度分布函数及其功能函数相同的情况下，两者结果一致。     

C36018固体润滑轴承真空寿命试验

卫星对其光学系统的成像质量要求很高,为此研制了没有油污染的固体润滑轴承,并首先对其中线速度最高的 C36018轴承进行了真空寿命试验。轴承组件为外圈弹性加载结构,加载力均匀;摩擦力矩测量系统具有防共振、防撞击及测力灵敏度高且测量误差小等特点;轴承转速650r/min,按转15min 停15min的模式在1×10~(-4)Pa 左右真空下循环运转了2年,总转数5.2×10~8r,7个轴承组件无一失效。     

火箭推进剂皮肤防护装备研究现状及发展趋势

对皮肤防护装备的应用和发展进行了综述，分析了塑料、橡胶与火箭推进剂的相容性，以及目前国内火箭推进剂皮肤防护装备存在的缺陷，并对推进剂专用皮肤防护装备的发展趋势进行了探讨。     

主动引射高模试车台水喷雾冷却器等效热力系统模型的研究

水喷雾冷却器在主动引射高空模拟试车台中具有重要作用,其出口处温度的有效控制是保障试车正常运行的关键。针对某型号火箭发动机常压试验的喷雾冷却器,建立了等效热力系统模型,并在Simulink平台上建立了相应的动态仿真模型,计算结果与试车测试结果对比证明所建等效热力系统模型正确,从而为实现其出口处温度的有效控制提供依据。     

固体火箭发动机可靠性评定的影子理论及应用

首次提出可靠性评定的影子问题,证明了影子定理,并用影子定理对固体火箭发动机的结构可靠性进行了评定,表明其具有应用价值。     

喷管后段内壁铣槽加工工艺

归纳了喷管后段内壁在铣槽加工中容易出现的问题,从技术上进行了分析,结合机床特点,介绍了采取的一系列措施,重点阐述了解决问题的方法和注意事项。解决了长期困扰在生产中的难题,大副降低了加工中的误差幅度。     

长征系列运载火箭航天发射总次数突破两位数

长征系列火箭为中国航天运载火箭的统称。文章讨论了该系列火箭的组成和航天发射情况。     

推进剂制造过程中组分快速分析方法概述

以复合固体推进剂为主，概述了制造过程中多种实时分析和相对快速分析方法，包括色谱法、极谱法、红外光谱法、Ｘ－射线萤光光谱法。详细比较了ＨＰＬＣ和流动注射分析（ＦＩＡ）之间的差异，提出了ＦＩＡ的优点及其在推进剂中应用的潜力。     

Evaluation of pressure oscillations by a laboratory motor

Aeroacoustic pressure oscillation is one of the important challenges in segmented solid rocket motors with high slenderness ratio. The reason for these oscillations can be searched in vortex shedding due to grain burning surfaces, holes and slots. In this paper, a novel sub-scaled motor was used for evaluation of aeroacoustic pressure oscillations. First, the related parameters to scale down using Buckingham’s Pi-theorem were determined and then the sub-scaled motor was designed and manufactured. After this, Strouhal number in various grain forms and vortex shedding prediction criteria have been discussed. Then, one-dimensional linear and non-linear solution approaches have been presented. To understand the motor internal flow and vortex shedding formation, steady state computational fluid dynamic performed for seven regression steps and finally, two static tests have been performed. Results show that various definitions for Strouhal number are useful only for primarily glance on vortex shedding and pressure oscillations and so CFD solution and the test program are inevitable for a correct understanding of the ballistic operational condition of the motor. Experimental results demonstrated the existence of such oscillations with frequencies nearly equal to axial modes. It seems that non-linear parameters have small effects on aeroacoustic pressure oscillation and therefore the linear solution is acceptable to obtain approximate data. Of course, it should be emphasized that linear solution represents oscillations on overall motor action time, whereas the output of non-linear solution depends on thermochemistry properties of solid propellant and combustion products. Therefore, with a non-linear solution, oscillations maybe occur in some intervals of action time. FFT (Fast Fourier Transformation) results demonstrated that although both first and second acoustic modes have been excited, the position of longitudinal oscillation has an important role on which one is dominant.